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null | summarization | Tell me about the history of how the NBA started? | The Basketball Association of America was founded in 1946 by owners of the major ice hockey arenas in the Northeastern and Midwestern United States and Canada. On November 1, 1946, in Toronto, Ontario, Canada, the Toronto Huskies hosted the New York Knickerbockers at Maple Leaf Gardens, in a game the NBA now refers to as the first game played in NBA history. The first basket was made by Ossie Schectman of the Knickerbockers. Although there had been earlier attempts at professional basketball leagues, including the American Basketball League (ABL) and the NBL, the BAA was the first league to attempt to play primarily in large arenas in major cities. During its early years, the quality of play in the BAA was not significantly better than in competing leagues or among leading independent clubs such as the Harlem Globetrotters. For instance, the 1948 ABL finalist Baltimore Bullets moved to the BAA and won that league's 1948 title, and the 1948 NBL champion Minneapolis Lakers won the 1949 BAA title. Prior to the 1948–49 season, however, NBL teams from Fort Wayne, Indianapolis, Minneapolis, and Rochester jumped to the BAA, which established the BAA as the league of choice for collegians looking to turn professional.
On August 3, 1949, the remaining NBL teams–Syracuse, Anderson, Tri-Cities, Sheboygan, Denver, and Waterloo–merged into the BAA. In deference to the merger and to avoid possible legal complications, the league name was changed to the present National Basketball Association, even though the merged league retained the BAA's governing body, including Maurice Podoloff as president. To this day, the NBA claims the BAA's history as its own. It now reckons the arrival of the NBL teams as an expansion, not a merger, and does not recognize NBL records and statistics. | The league was founded in New York City on June 6, 1946, as the Basketball Association of America (BAA). It changed its name to the National Basketball Association on August 3, 1949, after merging with the competing National Basketball League.. | null | null | null | 8700 |
null | open_qa | How does meditation help? | Meditation helps relax the mind by helping it focus on a specific object (such as breathing). This brings the mind to that object by cutting down the noise of multitude of thoughts that keep swarming in our minds. Meditation also helps train the mind to focus on a topic and be more present in conversations, with people or at work. Finally, it's helps reduce stress too as the mind does not spend too much time circling on negative thoughts. | null | null | null | 8701 |
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null | classification | Classify each score as "Under Par" or "Over Par" in golf: Eagle, Bogey, Double Eagle, Hole in One, Triple Bogey, Birdie | Eagle: Under Par
Bogey: Over Par
Double Eagle: Under Par
Hole in One: Under Par
Triple Bogey: Over Par
Birdie: Under Par | null | null | null | 8702 |
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null | closed_qa | Where is Ecsenius tessera commonly found? | Ecsenius tessera is a species of combtooth blenny in the genus Ecsenius. It is found in coral reefs in the western Pacific ocean, around Vanuatu. It can reach a maximum length of 4.5 centimetres. Blennies in this species feed primarily off of plants, including benthic algae and weeds. | Ecsenius tessera is commonly found in coral reefs in the western Pacific ocean, close to Vanuatu. | null | null | null | 8703 |
null | brainstorming | What are three crafts with a wire coat hanger? | - Create a mobile by cutting up the coat hanger and joining the pieces together.
- Make a wire sculpture of your favorite animal.
- Fashion a spring and affix a pompom on top of it, finishing your creation with googly eyes | null | null | null | 8704 |
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null | general_qa | Why did Rome have so many bad emperors? | The Roman Empire had many bad emperors for a variety of reasons, including:
Inheritance: Unlike modern democracies, the Roman Empire was an inherited monarchy, meaning that power was passed down through the family. This often led to the appointment of inexperienced or unqualified heirs to the throne.
Political instability: The Roman Empire was plagued by political instability, particularly in the 3rd century AD, when there were frequent changes of leadership and power struggles between rival factions.
Assassinations and coups: Many emperors came to power through assassination or coup, which often resulted in instability and a lack of legitimacy.
Personal flaws: Some emperors were simply bad rulers due to personal flaws such as greed, cruelty, or incompetence.
External pressures: The Roman Empire faced a number of external pressures, including economic crises, military threats, and natural disasters. These challenges often put pressure on emperors to make unpopular decisions or take drastic measures that could harm their reputation.
Overall, the Roman Empire was a complex and challenging political system, and the challenges of maintaining power and stability often resulted in the appointment of less-than-ideal rulers. | null | null | null | 8705 |
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null | open_qa | Who won the India’s highest literary award 56th Jnanpith award | Nilmani Phookan(Assamese Poet) | null | null | null | 8706 |
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null | general_qa | What is the best NFL football team of all time? | It depends on how you measure 'best'. If best refers to most Super Bowls won, then the Pittsburgh Steelers, New England Patriots, and San Francisco 49ers are the best teams. If best refers to the team that scored the most points, then I would look up which team in which year scored the most points in a single season on NFL.com. If best refers to my personal favorite team, then I would choose the Seattle Seahawks because that is where I grew up and first started loving football. | null | null | null | 8707 |
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null | summarization | Please give me a summary of what AES-GCM is and what are its inputs and outputs. | In cryptography, Galois/Counter Mode (GCM) is a mode of operation for symmetric-key cryptographic block ciphers which is widely adopted for its performance. GCM throughput rates for state-of-the-art, high-speed communication channels can be achieved with inexpensive hardware resources.
The GCM algorithm provides both data authenticity (integrity) and confidentiality and belongs to the class of authenticated encryption with associated data (AEAD) methods. This means that as input it takes a key K, some plaintext P, and some associated data AD; it then encrypts the plaintext using the key to produce ciphertext C, and computes an authentication tag T from the ciphertext and the associated data (which remains unencrypted). A recipient with knowledge of K, upon reception of AD, C and T, can decrypt the ciphertext to recover the plaintext P and can check the tag T to ensure that neither ciphertext nor associated data were tampered with. | AES-GCM is a mode of operation for symmetric-key cryptography. It stands for Galois/Counter Mode and is an authenticated block cipher that provides integrity and authenticity on top of confidentiality. It accepts as input a key K, a plaintest P and associated data AD, and it produces as output the ciphertext C and an authentication tag T. | null | null | null | 8708 |
null | open_qa | Where should you visit in Belize if you are looking for a nice beach? | You should visit Secret Beach on Ambergris Caye if you want to experience calm waters without sargassum (sea grass) on the beach. In Secret Beach you will find the typical postcard beaches with nice sand, calm waters and additionally you get to watch the sunset since this side of the island faces west. On the east side of Ambergris Caye, you will experience more wind, more waves and sargassum. However, this side of the island has better access to the reef for snorkeling and fishing. | null | null | null | 8709 |
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null | open_qa | What is Credit scoring? | This is a way of working out the risk of not being repaid if money is lent. Points are awarded for the answers given by the potential borrower to a series of questions. A high score means that the risk of them not being able to repay is low. | null | null | null | 8710 |
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null | open_qa | How much energy is released in a deuterium-tritium fusion reaction? | A Deuterium-Tritium (DT) fusion reaction results in 17.6 MeV of energy, released in the form of a Helium nucleus and a free Neutron. | null | null | null | 8711 |
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null | closed_qa | If there are only two genera remaining, what happened to the other 24? | According to the World Register of Marine Species, there are only two genera in this family. Previously there were about 26, but most of these have been reallocated as sub-genera of the remaining two genera, Mycale and Phlyctaenopora: | Most of the other 24 were reallocated as sub-genera of the remaining two genera. | null | null | null | 8712 |
null | open_qa | Which sea on Earth has no beaches | Sargasso sea | null | null | null | 8713 |
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null | open_qa | What year did the Titanic sink? | The Titanic sank in 1912. | null | null | null | 8714 |
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null | general_qa | Where should I go on my honeymoon? | There are many beautiful places to go on a honeymoon that are romantic and exciting. If you like adventure, Europe or South America have beautiful beaches and great restaurants and new places to see and diverse cultures to expose yourself to. If you prefer a more relaxing vacation, Hawaii is so beautiful and also has tons of hiking and great outdoor adventures to experience. There are many great choices in the United States also, you could take a tour of national parks out west, or go on a wine tour in California, or visit the Great Lakes of Michigan! | null | null | null | 8715 |
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null | general_qa | What is A State of Trance? | A State of Trance is a weekly internet radio show hosted by the Dutch DJ Armin van Buuren that plays 2 hours of the latest progressive and trance tracks. | null | null | null | 8716 |
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null | classification | Tell me if these are TV shows or Movies: Breaking Bad, Dexter, Game of thrones, Fight Club. | TV Shows: Breaking Bad, Dexter, Game of thrones
Movies: Fight Club | null | null | null | 8717 |
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null | closed_qa | Given these paragraphs about battery storage power stations, how much was able to store and dispatch the first phase of Vistra Energy's Moss Landing Energy Storage Facility? | As of 2021, the power and capacity of the largest individual battery storage power plants is an order of magnitude less than that of the largest pumped storage power plants, the most common form of grid energy storage. For example, the Bath County Pumped Storage Station, the second largest in the world, can store 24GWh of electricity and dispatch 3GW while the first phase of Vistra Energy's Moss Landing Energy Storage Facility can store 1.2GWh and dispatch 300MW. Grid batteries do not however have to be large, and smaller ones can be deployed widely across a grid for greater redundancy.
As of 2019, battery power storage is cheaper than open cycle gas turbine power for use up to two hours, and there was around 365 GWh of battery storage deployed worldwide, growing extremely rapidly. Levelized cost of electricity from battery storage has fallen rapidly, halving in two years to US$150 per MWh as of 2020. | The first phase of Vistra Energy's Moss Landing Energy Storage Facility can store 1.2GWh and dispatch 300MW. | null | null | null | 8718 |
null | closed_qa | Given the introduction of ChatGPT, tell me how many releases there are since the fist launch and when they were launched. | ChatGPT was launched as a prototype on November 30, 2022. It garnered attention for its detailed responses and articulate answers across many domains of knowledge. Its uneven factual accuracy, however, has been identified as a significant drawback. Following the release of ChatGPT, OpenAI's valuation was estimated at US$29 billion in 2023.
The original release of ChatGPT was based on GPT-3.5. A version based on GPT-4, the newest OpenAI model, was released on March 14, 2023, and is available for paid subscribers on a limited basis. | There are two ChatGPT versions so far. The first release was on Nov 23rd, 2022, and the second launch was released on Mar 14th, 2023. | null | null | null | 8719 |
null | summarization | Please give me a short bulleted list of the theories that explain different aspects of the relationship between the work and family life made in this passage. | Dominant theories of the relationship
Several theories explain different aspects of the relationship between the work and family life. Boundary theory and border theory are the two fundamental theories that researchers have used to study these role conflicts. Other theories are built upon the foundations of these two theories. In the two decades since boundary theory and border theory were first proposed, the rise of Information and Communication Technologies (ICT) has drastically altered the work–life interface. Work can now be completed at any time and in any location, meaning that domains are more likely to be blended and boundaries barely exist.
Seven dominant theories have been utilized to explain this relationship on the boundary-border spectrum; These theories are: structural functioning, segmentation, compensation, supplemental and reactive compensation, role enhancement, spillover, and work enrichment model.
Structural functionalism
The roots of this theory can be traced back to the early 20th century, when industrial revolution was separating economic work from the family home. The 19th century's technological advancements in machinery and manufacturing initiated the separation of work from family. However, it was not until the early 20th century that the first view of work–family theories started to take shape. Structural-functionalism as one of the dominant sociology theories of early 20th century was a natural candidate.
The structural functionalism theory, which emerged following WWII, was largely influenced from the industrial revolution and the changes in the social role of men and women during this period. This theory implies that the life is concerned mainly with two separate spheres: productive life which happens in the workplace and affective life which is at home. Structural functionalism theory believes in the existence of radical separation between work (institution, workplace, or market) and families. According to this theory, these two (workplace and family) work best "when men and women specialize their activities in separate spheres, women at home doing expressive work and men in the workplace performing instrumental tasks" (Kingsbury & Scanzoni, 1993; as cited in MacDermid, 2005: 18).
Greedy institutions
It has been argued that the work–family conflicts, in particular role conflicts, can be interpreted in terms of Lewis A. Coser's concept of "greedy institutions". These institutions are called "greedy" in the sense that they make all-encompassing demands on the commitment and loyalty of individuals, and tend to discourage involvement in other social spheres. Institutions such as religious orders, sects, academia, top level sports, the military and senior management have been interpreted as greedy institutions. On the other hand, also the family has been interpreted as a greedy institution in consideration of the demands placed on a caretaker. When a person is involved in two greedy institutions—be it child care and university, or family and the military, or others—task and role conflicts arise.
Segmentation
Based on this theory work and family do not affect each other, since they are segmented and independent from each other. The literature also reports the usage of the terms compartmentalization, independence, separateness, disengagement, neutrality, and detachment to describe this theory.
Compensation
In 1979, Piotrkowski argued that according to this theory employees "look to their homes as havens, look to their families as sources of satisfaction lacking in the occupational sphere." What distinguishes compensation theory from the previous theories is that, in compensation theory, for the first time, the positive effect of work to family has been recognized.
Supplemental and reactive compensation
Supplemental and reactive compensation theories are two dichotomies of compensation theory which were developed during the late 1980s and the early 1990s. While compensation theory describes the behavior of employees in pursuing an alternative reward in the other sphere, supplemental and reactive compensation theories try to describe the reason behind the work–family compensation behavior of employees.
Role enhancement theory
According to this theory, the combination of certain roles has a positive, rather than a negative effect on well-being. This theory states that participation in one role is made better or easier by virtue of participation in the other role. Moreover, this theory acknowledges the negative effect of the work–family relationship, in which, only beyond a certain upper limit may overload and distress occur, however, the central focus of this perspective is mainly on the positive effects of work and family relationship, such as resource enhancement.
Work enrichment model
This theory is one of the recent models for explaining the relationship between work and family. According to this model, experience in one role (work or family) will enhance the quality of life in the other role. In other words, this model tries to explain the positive effects of the work–family relationship. | - Structural Functionalism: The theory of structural functionalism indicates that life is strictly separated between the workplace, where productive life occurs, and home or family life where affective life takes place.
- Greedy Institutions: The theory of greedy institutions posits that institutions make sweeping demands on individuals, and discourage an individual's participation in other social areas or institutions, leading to conflict when competing demands arise.
- Segmentation: The theory of segmentation argues that work and family life are fully segmented or severed from one another and therefore do not affect each other.
-Compensation: The theory of compensation states that individuals find refuge from work and its deficiencies in their home lives and the satisfaction that comes from their families.
-Supplemental and Reactive Compensation: Supplemental and reactive compensation are two theories that describe the ways in which individuals pursue alternative forms of life satisfaction while caught between the work and family social spheres.
- Role enhancement: The theory of role enhancement posits that participation in one social sphere can enhance satisfaction and participation in the other--up to certain limits beyond which overload may occur.
- Work Enrichment Model: The theory of work enrichment attempts to explain how experience in one role or social sphere can complement or increase satisfaction in another. In this way, the work enrichment model is similar to the theory of role enhancement. | null | null | null | 8720 |
null | classification | Classify each of the following as either a natural hair color or a grocery store bakery brand: Hostess, blonde, brunette, Betty Crocker, Pilsbury, red, black, Entenmann's | Natural hair color: blonde, brunette, red, black
Grocery store bakery brands: Hostess, Betty Crocker, Pilsbury, Entenmann's | null | null | null | 8721 |
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null | closed_qa | Where is Mount Everest? | Mount Everest (Nepali: सगरमाथा, romanized: Sagarmāthā; Tibetan: Chomolungma ཇོ་མོ་གླང་མ; Chinese: 珠穆朗玛峰; pinyin: Zhūmùlǎngmǎ Fēng) is Earth's highest mountain above sea level, located in the Mahalangur Himal sub-range of the Himalayas. The China–Nepal border runs across its summit point. Its elevation (snow height) of 8,848.86 m (29,031 ft 8+1⁄2 in) was most recently established in 2020 by the Chinese and Nepali authorities. | Mount Everest is located in the Himalayan mountain range and runs across the China-Nepal border. | null | null | null | 8722 |
null | general_qa | What is a good anime to watch for someone who has never watched anime before? | This very much depends on on your personal preferences, but I’ll give you a couple of options that I think would be good starter animes. One of the most famous and highly acclaimed anime is Cowboy Bepop, which is a genre-crossing single-season show about a crew of bounty hunters aboard a spaceship called the Bepop. Another popular entry into anime is One Punch Man, which is an action/comedy about a superhero who can defeat anyone with one punch, leading him to grow bored and search for meaning and challenge. | null | null | null | 8723 |
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null | open_qa | What is the SECA Art Award? | SECA stands for Society for the Encouragement of Contemporary Art. The SECA Art Award is an annual award that is given to emerging San Francisco Bay Area artists. It was organized by the SFMOMA in1967, and has been awarded every year since then.
In 2022, 5 artists got selected: Binta Ayofemi, Maria A. Guzmán Capron, Cathy Lu, Marcel Pardo Ariza, and Gregory Rick. Their diverse works deal with racial conflict, American Asian identity, trans pride, black and indigenous presence in the urban landscape.
SECA installations can be viewed at the SFMOMA Level 2 galleries from December through May annually. | null | null | null | 8724 |
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null | creative_writing | Why is wine country in Northern California a great place to travel? | Traveling to wine country in Northern California is an excellent place to travel. There are countless vineyards to visit, some of the best restaurants in the country, and picturesque views everywhere. Visiting wine country is a relaxing vacation where travelers can enjoy slowing down their daily pace and just enjoy the beautiful surroundings around them. Wine country is also rich in history and the quaint towns can be fun to just walk around. | null | null | null | 8725 |
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null | classification | Identify which instrument is string or percussion: Cowbell, Crwth | Crwth is string, Cowbell is percussion. | null | null | null | 8726 |
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null | classification | Classify each as a chip or a cracker: Goldfish, Doritos, Cheez-It, Cheetos. | Crackers are Goldfish and Cheez-it, both being baked snacks. Chips are Cheetos and Doritos. | null | null | null | 8727 |
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null | closed_qa | From the text, how important is pilot communication with a non-towered controlled airport? | An airfield traffic pattern is a standard path followed by aircraft when taking off or landing while maintaining visual contact with the airfield.
At an airport, the pattern (or circuit) is a standard path for coordinating air traffic. It differs from "straight-in approaches" and "direct climb-outs" in that aircraft using a traffic pattern remain close to the airport. Patterns are usually employed at small general aviation (GA) airfields and military airbases. Many large controlled airports avoid the system unless there is GA activity as well as commercial flights. However, some kind of a pattern may be used at airports in some cases such as when an aircraft is required to go around, but this kind of pattern at controlled airports may be very different in form, shape, and purpose to the standard traffic pattern as used at GA airports.
The use of a pattern at airfields is for aviation safety. By using a consistent flight pattern, pilots will know from where to expect other air traffic and be able to see and avoid it. Pilots flying under visual flight rules (VFR) may not be separated by air traffic control, so this consistent predictable pattern is a vital way to keep things orderly. At tower-controlled airports, air traffic control (ATC) may provide traffic advisories for VFR flights on a work-load permitting basis. | From the provided text, I'm unable to tell how important pilot communication with a non-towered controlled airport is. | null | null | null | 8728 |
null | brainstorming | What are four creative ways to use a chess set besides playing chess? | You could use the pieces to invent a different war game; you could create a bottle flipping game with the king and queen; if the pieces are wood, you could use them as kindling for a Bo fire; and you could use the pieces as decorative paper weights. | null | null | null | 8729 |
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null | classification | Identify which instrument is string or percussion: Kepyak, Koto | Koto is string, Kepyak is percussion. | null | null | null | 8730 |
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null | general_qa | What is your biggest pet peeve when using email filters to organize your Inbox? | Most email productivity applications allow the creation of "folders" (ex. Microsoft Outlook) and others allow the creation of "labels" (ex. Gmail). But in both cases, the application allows you to organize emails by using filters or rules to automatically store them in a particular folder or apply a specific label for easy retrieval at a later time. The key distinction, however, is that an email can belong to only one folder at a time i.e., a 1-1 relationship, whereas a variety of labels can be applied on a single email i.e., a 1-many relationship. I love using email filter rules just as much as anyone that's interested in taming their email Inbox. But I sometimes find myself not reading an important email either until it's very late or end up missing it entirely because the email skips the Inbox (where I spend most of my time) when a rule is triggered. And that drives me nuts. I hear you saying, "then why don't you edit the rule so that the email does not skip the inbox when it is triggered?". And to that I would respond, "then wouldn't that defeat the purpose and original intent of the rule? What's the point of creating a rule if all your emails end up in the Inbox view?". That, in essence, is my biggest pet peeve when using email filters to organize my Inbox. | null | null | null | 8731 |
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null | summarization | Summarize the text and tell me what is Sonova? | Sonova Holding AG (Phonak Holding AG before 1 August 2007) is an internationally active Swiss group of companies headquartered in Stäfa that specializes in hearing care (hearing instruments, cochlear implants, wireless communication). The Sonova group operates through its core business brands Phonak, Unitron, Hansaton, Advanced Bionics, AudioNova and Sennheiser. It is one of the largest providers in the sector worldwide. The group and its brands hold 24% of the global hearing aid market in sales. As of 11 September 2022, Sonova is a component of the Swiss Market Index. | Sonova Holding AG is a Swiss group of companies headquartered in Staefa that specializes in hearing care. | null | null | null | 8732 |
null | open_qa | Which NFL team has the most Super Bowl championship wins? | The Pittsburgh Steelers and the New England Patriots are tied for the most Super Bowl championship wins. Both teams have won 6 Super Bowl championships. The Steelers were the first team to achieve this in 2008, while the Patriots earned their sixth championship win in 2018. | null | null | null | 8733 |
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null | classification | Classify each of the following Hogwarts students in the houses Gryffindor, Hufflepuff, Ravenclaw, and Slytherin: Harry Potter, Hermione Granger, Neville Longbottom, Ronald Weasley, Fred Weasley, George Weasley, Percy Weasley, Charles Weasley, Ginny Weasley, Seamus Finnigan, Oliver Wood, Angelina Johnson, Alicia Spinnet, Katie Bell, Andrew Kirke, Jack Sloper, Demelza Robins, Dean Thomas, Cedric Diggory, Zacharias Smith, Ernie Macmillan, Hannah Abbott, Justin Finch-Fletchley, Susan Bones, Zacharias Smith, Luna Lovegood, Marcus Belby, Cho Chang, Myrtle Warren, Padma Patil, Terry Boot, Michael Corner, Roger Davies, Anthony Goldstein, Marietta Edgecombe, Robert Hilliard, Penelope Clearwater, Lisa Turpin, Morag MacDougal, Mandy Brocklehurst, Nanette Desford, Maria Glossop, Millicent Bagnold, Sue Li, Ignatia Wildsmith, Chester Davies, Tulip Karasu, Badeea Ali, Talbott Winger, Andre Egwu, Adelaide Murton, Adrian Pucey, Aesop Sharp, Barnaby Lee, Blaise Zabini, Felix Rosier, Gemma Farley, Ismelda Murk, Liz Tuttle, Marcus Flint, Merula Snyde, Millicent Bulstrode, Pansy Parkinson, Terence Higgs, Tracey Davis, Tom Riddle, Viola Richmond, Yatin Bhagat, Yurika Haneda, Zoe Accrington, Zubeida Khan | The Gryffindor students are: Harry Potter, Hermione Granger, Neville Longbottom, Ronald Weasley, Fred Weasley, George Weasley, Percy Weasley, Charles Weasley, Ginny Weasley, Seamus Finnigan, Oliver Wood, Angelina Johnson, Alicia Spinnet, Katie Bell, Andrew Kirke, Jack Sloper, Demelza Robins, Dean Thomas.
The Hufflepuff students are: Cedric Diggory, Zacharias Smith, Ernie Macmillan, Hannah Abbott, Justin Finch-Fletchley, Susan Bones, Zacharias Smith
The Ravenclaw students are: Luna Lovegood, Marcus Belby, Cho Chang, Myrtle Warren, Padma Patil, Terry Boot, Michael Corner, Roger Davies, Anthony Goldstein, Marietta Edgecombe, Robert Hilliard, Penelope Clearwater, Lisa Turpin, Morag MacDougal, Mandy Brocklehurst, Nanette Desford, Maria Glossop, Millicent Bagnold, Sue Li, Ignatia Wildsmith, Chester Davies, Tulip Karasu, Badeea Ali, Talbott Winger, Andre Egwu
The Slytherin students are: Adelaide Murton, Adrian Pucey, Aesop Sharp, Barnaby Lee, Blaise Zabini, Felix Rosier, Gemma Farley, Ismelda Murk, Liz Tuttle, Marcus Flint, Merula Snyde, Millicent Bulstrode, Pansy Parkinson, Terence Higgs, Tracey Davis, Tom Riddle, Viola Richmond, Yatin Bhagat, Yurika Haneda, Zoe Accrington, Zubeida Khan | null | null | null | 8734 |
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null | classification | Classify each of the following among a country, a continent, both, none: america, north america, australia, london, india, china | america : none, north america : continent, australia: both, london: none, india : country, china : country, nile : none, vatican city : country, europe : continent, arctic : none | null | null | null | 8735 |
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null | open_qa | What team has won the most Stanley Cups? | The Montreal Canadiens have won the most Stanley Cups with 24. | null | null | null | 8736 |
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null | brainstorming | What should I eat when I visit South India ? | South India is known for vegetarian delicacies. Here is a list of some foods that you should try :
1. Masala Dosa
2. Filter Coffee
3. Idly
4. Vada
5. Pongal | null | null | null | 8737 |
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null | creative_writing | Describe ZMOT (Zero moment of truth) and how it differs from the 3-step model of marketing that was prevalent at the time of its introduction. | The 3-step model (ZMOT, FMOT, SMOT) of marketing from P&G begins with the consumer discovering a product via an Ad or hearing it from other sources like friends or colleagues. This trigger moment is followed by (FMOT) the first moment of truth where consumers are at the shelf, looking to buy, touch and feel the product and evaluate competitive offerings on the adjacent frames. The last step is the (SMOT) second moment of truth, where consumers purchase and start using the products.
ZMOT (Zero moment of truth) is the time between the trigger and FMOT. It is when the consumers learn more about the products before they appear on the shelf. ZMOT is the pre-shopping experience where consumers can watch YouTube videos of the product, read Amazon reviews, and have a complete product experience before buying. | null | null | null | 8738 |
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null | closed_qa | When was MIT founded? | The Massachusetts Institute of Technology (MIT) is a private land-grant research university in Cambridge, Massachusetts. Established in 1861, MIT has played a significant role in the development of many areas of modern technology and science. | 1861 | null | null | null | 8739 |
null | open_qa | How many continents are there on Earth? | There are seven continents on Earth, and they are from largest to smallest: Asia, Africa, North America, South America, Antarctica, Europe, and Australia. | null | null | null | 8740 |
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null | open_qa | What are the four seasons, and what month does each season start in New York City? | The four seasons are Winter, Spring, Summer and Fall. Winter starts in December, Spring in March, Summer in June and Fall in September | null | null | null | 8741 |
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null | creative_writing | A dialogue between two characters discussing the impact of social media on their lives. Both positive and negative points | Person 1: Hey, what happened? Why are you sad?
Person 2: I'm sad because my grades are low.
Person 1: But you used always study on your iPad... where did you go
wrong?
Person 2: Yeh... I was using my iPad but didn't study…
I was engaging myself in other things.
Person 1: Ohh..! That isn't good. See, my friend, multitasking has become a common thing in our life.
But we should know how to manage it all. We are too dependent on smartphones for everything
like work, school, shopping and personal life. We are addicted to smartphones, the internet and social media
Social media is harming us in many ways like
* It is stealing our personal life
Increase of cybercrime and cyberbullying.
Depression anxiety in children
*Addiction to games on other social networking sites.
* Causes emotional damage to a person, which leads to suicide.
* Mental illness. , etc.
But on the other hand, there are some positive aspects to note as well
Internet and social media help families stay connected
It helps in online banking and paying bills. And
It helps in online learning and remote working
It can be an effective tool for marketing
5. Information seeking
So, my dear friend internet and social media have their own merits and demerits. Use it wisely and for a good cause. | null | null | null | 8742 |
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null | classification | Tell me which of these are served hot or cold: soup, ice cream, potato salad, mashed potatoes, cake, cheese platter | Soup and mashed potatoes are both served hot. Ice cream, potato salad, cake, and cheese platters are all served cold | null | null | null | 8743 |
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null | general_qa | Where do the Kardashians live? | The Kardashians live in Hidden Hills, CA but own properties in Palm Springs, CA as well. They used to live in Calabasas, CA until they got too famous and moved one town over where they have more privacy and larger lots of land. Khloe Kardashian and Kris Jenner actually live right next to each other! They removed their property lines and have a backyard that spans both properties. Kim Kardashian lives right around the corner and Ye bought a house across the street from her when they divorced. Kourtney Kardashian lives a block away with her three children. Her husband, Travis Scott, lives 3 doors down and her children's father, Scott Disick, also lives in the same neighborhood. | null | null | null | 8744 |
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null | open_qa | Name some of the bravolebrities from The Real Housewives of Dubai | Caroline Brooks, Caroline Stanbury, Chanel Ayan, Dr. Sara Al Madani, Lesa Milan Hall and Nina Ali | null | null | null | 8745 |
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null | classification | Which of the following numbers are odd and which are even: 1, 35, 72, 64, 103, 29, 16, 41, 22 | These numbers are odd: 1, 35, 103, 29, 41. And these numbers are even: 72, 64, 16, 22. | null | null | null | 8746 |
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null | open_qa | Name five fire Pokemon. | Five fire pokemon are Rapidash, Magmar, Vulpix, Charmeleon, and Charmander. | null | null | null | 8747 |
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null | information_extraction | Extract from the text the various names that the Six Nations Championship has had throughout history with the beginning and end dates for each name and list them using bullet points ordered by beginning dates in the format {Beginning Date} / {End Date} - {Name} | The Six Nations is the successor to the Home Nations Championship (1883–1909 and 1932–39), played between teams from England, Ireland, Scotland, and Wales, which was the first international rugby union tournament. With the addition of France, this became the Five Nations Championship (1910–31 and 1947–99), which in turn became the Six Nations Championship with the addition of Italy in 2000. | * 1883 / 1909 - Home Nations Championship
* 1910 / 1931 - Five Nations Championship
* 1932 / 1939 - Home Nations Championship
* 1947 / 1999 - Five Nations Championship
* 2000 / present - Six Nations Championship | null | null | null | 8748 |
null | open_qa | Historically, what are the largest animals on earth? Please include dinosaurs | The largest animals to roam the earth were the dinosaurs. Of these, the Sauropods were the largest family of dinosaurs. Sauropods were herbivorous. The Diplodocus was the longest dinosaur found with a complete skeleton with a length of 26 metres or 85 feet.
Larger dinosaurs did exist but only individual bones have been found. | null | null | null | 8749 |
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null | open_qa | What is the Azure equivalent of EKS? | Microsoft Azure offers the Azure Kubernetes Service (AKS) | null | null | null | 8750 |
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null | summarization | How has McDonald's target audience changed over time? | Fast food restaurants often aim some of their advertising directly at the youth population. McDonald's Happy Meals, which include a toy often tied in with a newly released family film, is a significant example. Ronald McDonald, a clown advertising mascot introduced in 1963 and designed to appeal to young children, is another. In addition, in 1987 McDonald's incorporated a Play Place in their restaurants to further advertise to children, making their restaurants a more appealing environment for children. Additionally, from 1996 to 2006, Disney was an exclusive partner with McDonald's, linking their products together. They announced the end of this deal in May 2006, with some reports saying that Disney was worried about childhood obesity. Other than Disney, McDonald's has also been partnered with Nintendo since 1985, when the Nintendo Entertainment System was first introduced. In 1987, McDonald's also created a Nintendo play land in their restaurants where kids could play on Nintendo consoles while waiting for their food. During 2007, McDonald's began to provide WiFi from the Nintendo consoles; giving children the ability to play wherever they were. With also a target audience of children releasing these new films and incorporating toys, it uses the kids to reach out to their parents pockets because of their large investment. | McDonald's has consistently aimed their advertising directly at the youth population.
Starting in 1963, they introduced Ronald McDonald, a clown advertising mascot designed to appeal to young children. Over the years, McDonald's partnered with multiple companies that have products targeted at children, such as Nintendo and Disney. | null | null | null | 8751 |
null | open_qa | What hemispheres is the United States in? | The US is in the Northern and Western Hemispheres | null | null | null | 8752 |
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null | brainstorming | What are some good flowers to plant in Hardiness Zone 7? | You can grow a lot of great flowers in Zone 7. For shady areas of your garden, try hostas, lily of the valley, and heuchera. If you have more sun, irises, roses, peonies, and begonias should all do well. | null | null | null | 8753 |
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null | creative_writing | Why did the cow jump over the moon? | The cow wanted to jump to the moon because it had run out of milk for its calf. The calf was crying day and night because of how hungry it was. The mother cow looked up at the night sky, saw the milky-colored moon in the sky, and thought if it jumped to the moon, its udders would be full again. It practiced over and over, jumping as high as it could. Once it was finally ready that it jumped over the moon. The courage that it gained filled the udders with milk once again. | null | null | null | 8754 |
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null | open_qa | What film won Best Picture at the 95th Academy Awards in 2023? | Everything Everywhere All at Once | null | null | null | 8755 |
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null | brainstorming | What are some dishes that avocados can be used in? | Avocados are a delicious creamy fruit that can be used in a variety of dishes and in cooking. Avocados can be sliced up and added into salads, or they can be mashed up and spread on toast to make avocado toast. Avocados are also the main ingredient in guacamole. They can also be diced into small cubes and added into poke. Some people also blend avocados and put them into smoothies, or use it in desserts as a healthier alternative ingredient. | null | null | null | 8756 |
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null | closed_qa | Given this paragraph about a singer, what was Rihanna's first album? | Robyn Rihanna Fenty NH (/riˈænə/ (listen) ree-AN-ə;[n 1] born February 20, 1988) is a Barbadian singer, actress, and businesswoman. Born in Saint Michael and raised in Bridgetown, Barbados, Rihanna auditioned for American record producer Evan Rogers who invited her to the United States to record demo tapes. After signing with Def Jam in 2005, she soon gained recognition with the release of her first two studio albums, Music of the Sun (2005) and A Girl Like Me (2006), both of which were influenced by Caribbean music and peaked within the top ten of the US Billboard 200 chart. | Music of the Sun (2005) | null | null | null | 8757 |
null | information_extraction | Who is TIME | Li "Oliveira" Peinan (born June 28, 2000) is a Chinese Terran player who is currently playing for DKZ Gaming.
He is formerly known as "TIME". | ollowing his performance at GPL 2015 Season 3 Premier League, he was invited to become a member of X-Team at the beginning of 2016.
He became famous in NEO Star League 2016 International, where he beat MarineLorD 2-0 through his strongest matchup (TvT).
In the 3rd place playoff of WESG 2017 - Asia-Pacific Qualifier, he beat Maru 3-2 in an official offline tournament.
After One More was disbanded, Oliveira joined Clan SCBoy for 4 months before leaving. After being teamless for another 4 months, he joined Newbee in the Summer of 2018.
In 2018 WCS Montreal, Oliveira reached a new milestone in his SC2 career. He never expected himself to go that deep into the tournament. Oliveira defeated Has 3:2, who was the runner-up of 2018 WCS Valencia, and he advanced to the quarterfinals. In Ro8, he surprised most people by sweeping the series against HeRoMaRinE, one of the best EU Terran players, 3:0. Before him, the Chinese audience had sorely missed one of their own players in the semifinals, the last two being MacSed & Jim in 2013. Even though Reynor ended Oliveira's journey, he had a bright future in the coming years.
On April 2019, despite losing to MaSa in 2019 WCS Winter AM, Oliveira saw his 4th trip to the Top 8 of a premier tournament.
Just one month after 2019 WCS Winter AM, Oliveira made his breakthrough and stood in front of Serral in the quarterfinals of 2019 WCS Spring. Even though he felt anxious while facing the world's best player, Oliveira still managed to grab one map after an unsuccessful Nydus timing attack from Serral. He said that he had seen the gap between him and the best player and what he could improve in the next tournament after that game.
On July 2019, Oliveira was defeated by ShoWTimE, the best German Protoss, 1:3 in the quarterfinals of 2019 WCS Summer. Later, he was successfully qualified for Assembly Summer 2019 after defeating Scarlett for the first time. He got revenge against ShoWTimE in Group Stage 2 with two decisive SCV pulls. He then faced Serral in the quarterfinals for the second time and showed his improvement after 3 months' practice. No one expected that Oliveira would almost take down Serral in this BO5, but he narrowly lost 2:3. He even led 2:1 in the series but Serral pulled off a comeback after a vigorous effort and defeated Oliveira with 3:2. During the winner's interview, the reigning WCS Champion said that there was a moment he thought he might have lost the game. Oliveira showed his excellent control just like what ByuN did 3 years ago, and earned himself many fans worldwide.
On Aug 15, 2019 GSL vs. the World, he dominated one of the best Zerg players from Korea, soO. There was no doubt that Oliveira was now one of the best Terran players in the world.
After defeating MaNa 3:1 and Astrea 3:0 in 2019 WCS Fall, Oliveira became the first Mainland Chinese player to qualify for 2019 WCS Global Finals in Anaheim. It had taken 8 years for Chinese fans to see a local player competing in the Global Finals for the first time. No matter the result, Oliveira had initiated a new era for the Chinese StarCraft 2 scene.
Winning IEM Katowice 2023
In one of the biggest upsets in Starcraft II history, Oliveira defeated Maru 4:1 in the Grand Final of IEM Katowice 2023 to become the 2023 World Champion. After narrowly escaping his group with a 2-3 overall record with only beating Terrans, he beat 2022 IEM Katowice Semifinalist HeRoMaRinE, 2021 IEM Katowice Champion Reynor and 2022 Season 2 GSL Code S Champion herO to reach the finals. His opponent in that match, 5-time GSL Code S Champion Maru, was the 94% favourite according to Aligulac and won the first map in a convincing fashion. However, Oliveira responded with a series of impressive victories to take the series 4:1 and lift the trophy. | null | null | null | 8758 |
null | general_qa | For Bronze layer, how do you suggest handling the data sources that are coming as JSON/CSV/Avro, etc. (Onprem SQL data imported as json via Azure Data Factory into ADLS Or API Calls that return JSON) Should that be stored without processing in bronze layer in ADLS/Process them and store as Delta in bronze or should we have a pre bronze layer? | Either method will work. There are some advantages to using a delta bronze layer over relying on your JSON files in ADLS. It is a lot more performant to re-process data that's in the bronze delta format than re-processing the json files in ADLS. This is because all of your data will be consolidated and filesizes will be optimized in your bronze layer. | null | null | null | 8759 |
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null | general_qa | Who is using Spark in production? | As of 2016, surveys show that more than 1000 organizations are using Spark in production. Some of them are listed on the Powered By page and at the Spark Summit. | null | null | null | 8760 |
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null | classification | Identify which instrument is string or percussion: Derkach, Lyra | Lyra is string, Derkach is percussion. | null | null | null | 8761 |
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null | classification | Identify which instrument is string or woodwind: Gravikord, Heckelphone | Heckelphone is woodwind, Gravikord is string. | null | null | null | 8762 |
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null | classification | Classify each of these movies as being for adults or for kids. | The Longest Day: adults
Babe: kids
Minions: kids
Savings Private Ryan: adults
Paddington: kids
Flubber: kids
Peter Rabbit: kids
Diary of a Wimpy Kid: kids
Moana: kids
Mulan: kids
Charlotte's Web: kids
Tár: adults
All Quiet on the Western Front: adults
Eyes Wide Shut: adults | null | null | null | 8763 |
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null | open_qa | What religion is the oldest in the world? | The oldest religion in the world is Hinduism. Also known as Sanatana Dharma, Hinduism is one of the major religions in the modern world with over a billion followers. Hinduism contains scriptures dating back 3,000 years ago, and roots and customs dating back over 4,000 years ago. As the world's third largest religion, Hinduism is referred to as a natural religion because of its universal applicability and ability to be understood through study, reason, and experience. | null | null | null | 8764 |
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null | closed_qa | Given a reference text about Stevan L. Davies, tell me where he went to college. | Stevan L. Davies (born 1948) is an author and Emeritus Professor of Religious Studies at Misericordia University in Dallas, Pennsylvania. His most notable work has been in the analysis of Christian apocrypha, especially the Gospel of Thomas. He is married to Sally Watkins Davies and has two children, Michael L. Davies and Meredith G. Russell.[citation needed]
Davies holds a bachelor's degree from Duke University and a doctorate in philosophy from Temple University.
He was Professor of Religious Studies at Misericordia University from 1979 to 2015. | Stevan L. Davies went to college at Duke University for his bachelor's degree and Temple University for his doctorate in philosophy. | null | null | null | 8765 |
null | closed_qa | what traditional process does Cyber PHA follow given this information? | The Cyber PHA methodology reconciles the process safety and cybersecurity approaches and allows IT, Operations and Engineering to collaborate in way that is already familiar to facility operations management and personnel. Modeled on the process safety PHA/HAZOP methodology, a cyber PHA enables cyber risks to be identified and analyzed in the same manner as any other process risk, and, because it can be conducted as a separate follow-on activity to a traditional HAZOP it can be used in both existing brownfield sites and newly constructed greenfield sites without unduly meddling with well established process safety processes. | HAZOP | null | null | null | 8766 |
null | classification | Classify the movies based on whether they were released in 2001 or 2002.
Albela, Lagaan, Kabhi Khushi Kabhie Gham, Hum Tumhare Hain Sanam, Devdas, Na Tum Jaano Na Hum | 2001 : Albela, Lagaan, Kabhi Khushi Kabhie Gham
2002 : Hum Tumhare Hain Sanam, Devdas, Na Tum Jaano Na Hum | null | null | null | 8767 |
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null | information_extraction | Provide key stats about Venus in a bulleted list including days to orbit the sun, mean temperature, number of moons orbiting the planet, and primary element in its atmosphere | Venus is the second planet from the Sun. It is sometimes called Earth's "sister" or "twin" planet as it is almost as large and has a similar composition. As an interior planet to Earth, Venus (like Mercury) appears in Earth's sky never far from the Sun, either as morning star or evening star. Aside from the Sun and Moon, Venus is the brightest natural object in Earth's sky, capable of casting visible shadows on Earth in dark conditions and being visible to the naked eye in broad daylight.
Venus is the second largest terrestrial object of the Solar System. It has a surface gravity slightly lower than on Earth and has a weak induced magnetosphere. The atmosphere of Venus consists mainly of carbon dioxide, and, at the planet’s surface, is the densest and hottest of the atmospheres of the four terrestrial planets. With an atmospheric pressure at the planet's surface of about 92 times the sea level pressure of Earth and a mean temperature of 737 K (464 °C; 867 °F), the carbon dioxide gas at Venus's surface is a supercritical fluid. Venus is shrouded by an opaque layer of highly reflective clouds of sulfuric acid, making it the planet with the highest albedo in the Solar System. It may have had water oceans in the past, but after these evaporated the temperature rose under a runaway greenhouse effect. The possibility of life on Venus has long been a topic of speculation but research has not produced convincing evidence thus far.
Like Mercury, Venus does not have any moons. Solar days on Venus, with a length of 117 Earth days, are just about half as long as its solar year, orbiting the Sun every 224.7 Earth days. This Venusian daylength is a product of it rotating against its orbital motion, halving its full sidereal rotation period of 243 Earth days, the longest of all the Solar System planets. Venus and Uranus are the only planets with such a retrograde rotation, making the Sun move in their skies from their western horizon to their eastern. The orbit of Venus around the Sun is the closest to Earth's orbit, bringing them closer than any other pair of planets. This occurs during inferior conjunction with a synodic period of 1.6 years. However, Mercury is more frequently the closest to each. | - 224.7 Earth days to orbit the sun
- Mean temperature of 737 K (464 °C; 867 °F)
- No moons orbit Venus
- Carbon dioxide is the primary element in the atmosphere | null | null | null | 8768 |
null | open_qa | What are some of the must-visit places in Tohoku, Japan? | Some of the must-visit places in Tohoku, Japan's Northeast region, include the region’s two most popular destinations: the beautiful and historic city of Sendai and the serene and beautiful Matsushima Bay. Additionally, the Tohoku region is home to some of the most popular destinations in Japan, including the Oirase gorge in southern Aomori prefecture, which is famed for its many waterfalls and hiking trails, and Akita city, which is best known for preserving its unique arts, architecture and cultural heritage from an earlier age. In terms of summer celebrations, the Kanto festival in Akita together with Aomori's Nebuta Festival and Sendai's Tanabata festival make up the three great festivals of the Tohoku Region. Tohoku is also home to some of the best onsen (natural hot spring) destinations in all of Japan such as Ginzan onsen in Yamagata prefecture, Akiu onsen in Miyagi, and Nyuto onsen in Akita. | null | null | null | 8769 |
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null | classification | Why is the SEC the best football conference in America? | The SEC is the best conference for several reasons. The National champion has come from the SEC 13 times since 2006. The fan bases are unmatched in their love for football and the honest truth is that football is a way of life in the SEC. | null | null | null | 8770 |
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null | classification | Classify the animals based on their food habits.
Lion, Tiger, Cow, Goat, Deer | Herbivores - Cow, Goat, Deer
Carnivores. - Lion, Tiger | null | null | null | 8771 |
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null | open_qa | Which member of *NSYNC was a replacement for another who quit before they got big? | Lance Bass. | null | null | null | 8772 |
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null | general_qa | What are fun activities to do with a toddler in Los Angeles? | There are a variety of fun things to do with a toddler in the Los Angeles area. To keep it casual, you may choose to visit parks that have playgrounds including Griffith Park or Pan Pacific Park or children's museums such as Cayton Children's Museum in Santa Monica or Discovery Cube Los Angeles in Sylmer. Mall areas like The Americana at Brand or Westfield Century City provide shops where toddlers can look around and play such as the CAMP store or Barnes and Nobles as well as restaurants and dessert shops that are kid-friendly. If you are planning in advance and are looking for more of a full day activity, visiting Disneyland in Anaheim or the beach at the Santa Monica Pier are also great options! | null | null | null | 8773 |
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null | closed_qa | Did Thomas Attewell bat with a right or left hand? | Thomas Attewell (7 November 1869 – 6 July 1937) was an English first-class cricketer. Attewell was a right-handed batsman who bowled right-arm medium pace. He was born at Keyworth, Nottinghamshire.
His brother William played first-class cricket for Nottinghamshire and the Marylebone Cricket Club, as well as Test cricket for England. His cousin Walter Attewell played first-class cricket for Nottinghamshire. | right hand | null | null | null | 8774 |
null | classification | Which of the numbers 1 through 10 are prime numbers? | The numbers 2, 3, 5 and 7 are prime numbers. | null | null | null | 8775 |
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null | brainstorming | Give me a list of 10 books on building better habits | 1. "Atomic Habits" by James Clear
2. "The Power of Habit" by Charles Duhigg
3. "The 7 Habits of Highly Effective People" by Stephen R. Covey
4. "How to Change" by Katy Milkman
5. "Better than Before" by Gretchen Rubin
6. "Tiny Habits" by BJ Fogg
7. "Elastic Habits" by Stephen Guise
8. "Good Habits, Bad Habits" by Wendy Wood
9. "The Habit Blueprint" by Patrik Edblad
10. "The Now habit" by Neil Fiore | null | null | null | 8776 |
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null | general_qa | How should I sleep train my baby? | Make sure the room is dark enough. If you hold out your hand at arm's length, you should not be able to see the outline of your fingers. Get a sound machine so that outside noises do not disturb them. Use a sleep sack or a swaddle as a safe method of keeping the baby warm. Lastly, maintain a consistent routine every night which may include reading books, giving a bath, feeding them milk, and/or singing a song. | null | null | null | 8777 |
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null | information_extraction | List the Hindi television series by Ekta Kapoor. | Ektaa Kapoor started her career at the age of 17, interning with advertisement and feature filmmaker Kailash Surendranath. After obtaining financing from her father, she was a producer under her banner Balaji Telefilms. Her initial projects were failures, with six of her pilot episodes being rejected, leading to a total loss of ₹50 lakh (equivalent to ₹1.7 crore or US$210,000 in 2020). In 1995, Mano Ya Na Mano was selected by Zee TV and her music-based show Dhun Dhamaka was chosen by Doordarshan. Her 1995 sitcom, Hum Paanch was her first success.
In the 2000s, the letter 'K' became her lucky alphabet and she launched many shows with the first word of every title starting with the same letter, including Kyunki Saas Bhi Kabhi Bahu Thi, which broke all records to become the series to attract the highest TRPs in 2000. Other shows beginning with 'K' include Kahaani Ghar Ghar Ki, Kabhii Sautan Kabhii Sahelii, Kohi Apna Sa, Kaahin Kissii Roz, Kalash, Kasautii Zindagii Kay, Kahiin To Hoga and Kasamh Se. In 2001, she was awarded the title of Best Entrepreneur of the Year.
By July 2001, Kapoor was producing more than 30 hours of television shows per week. 20 of her 34 serials were listed as the most popular serials, across all major TV channels like Zee TV, Sony, Star Plus and Metro. Her projected turnover for 2000–2001 was listed as ₹35 crore (equivalent to ₹118 crore or US$15 million in 2020).
After establishing herself in Hindi TV serials, she began venturing into other regional languages, starting with the Tamil series, Kudumbum. The series became very popular and she then got it dubbed into Telugu and launched it in Hindi as Ghar Ek Mandir. She then ventured into Punjabi, Marathi, Gujarati and Bengali languages. As of 2001, Kapoor wrote her own scripts despite having writers working for her, taking an active interest in all stages of production, while her mother, Shobha, handled the accounts. | The Hindi TV series by Ekta Kapoor include Mano Ya Na Mano, Dhun Dhamaka, Hum Paanch, Kyunki Saas Bhi Kabhi Bahu Thi, Kahaani Ghar Ghar Ki, Kabhii Sautan Kabhii Sahelii, Kohi Apna Sa, Kaahin Kissii Roz, Kalash, Kasautii Zindagii Kay, Kahiin To Hoga and Kasamh Se. | null | null | null | 8778 |
null | general_qa | Which are the main reasons for doing a PhD? | A PhD degree provides advanced critical thinking, not only in the field of Science that the PhD was achieved, but also generally. Additionally, PhD programs give the opportunity to students to perform dedicated research to topics which are of specific interest to them. | null | null | null | 8779 |
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null | information_extraction | What's one way biotechnology was used in world war one? | In the early twentieth century scientists gained a greater understanding of microbiology and explored ways of manufacturing specific products. In 1917, Chaim Weizmann first used a pure microbiological culture in an industrial process, that of manufacturing corn starch using Clostridium acetobutylicum, to produce acetone, which the United Kingdom desperately needed to manufacture explosives during World War I. | In 1917, Chaim Weizmann first used a pure microbiological culture in an industrial process, that of manufacturing corn starch using Clostridium acetobutylicum, to produce acetone, which the United Kingdom desperately needed to manufacture explosives during World War I. | null | null | null | 8780 |
null | general_qa | Where does Delta Lake store the data? | When writing data, you can specify the location in your cloud storage. Delta Lake stores the data in that location in Parquet format. | null | null | null | 8781 |
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null | classification | Classify the cities based on whether they are located in South Georgia and South Sandwich Islands or Dominican Republic.
Santiago, Santo Domingo Este, Santo Domingo, Grytviken | South Georgia and South Sandwich Islands - Grytviken
Dominican Republic - Santo Domingo, Santiago, Santo Domingo Este | null | null | null | 8782 |
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null | brainstorming | Give me a list of the best true crime podcast to listen to | Morbid, Crime Junkie, My Favorite Murder, 2020, Dateline | null | null | null | 8783 |
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null | general_qa | what are ISO compliant crypto currencies? | XRP and XLM are the most popular ISO 20022 compliant crypto currencies. | null | null | null | 8784 |
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null | general_qa | Why is Captain America Steve Rogers the leader of the Avengers? | Steve Rogers also know as Captain America is the leader of the Avengers because he is the first Avenger. He was a the first and most successful created super solider in the era of world war 2. He is a master of warfare. He has trained in every technique of martial arts. He has a strong sense of right and wrong. He is courageous, committed and honorable. His experience in World War 2 leading the Howling Commandos gives him the most knowledge to lead the Avengers. He protects the team and understands how to make the difficult decisions. | null | null | null | 8785 |
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null | creative_writing | Explain to your 6 year son why its ok to fail few times only to get better later | dear son, when you were born you were so small, you didnt know how to eat or sit. But mommy kept trying to feed you and slowly slowly you learned to eat, and now you see you eat food by yourself so fast. There are so many things you have learned like talking, reading, writing, it all came from practise. Remember the first time when you did cycling you could not balance and kept falling? But Daddy told you to keep trying again and again and you kept practicing every Saturday and now you know how to ride cycle and balance well. Always remember this, everytime you do something new, it will be difficult at first, it might not work, but you should not lose hope and be sad and give up. You should not think you cant do this. Remember if you keep trying , you will figure it out. So next you find something difficult, stay calm, keep trying and you will get it done. | null | null | null | 8786 |
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null | classification | Identify which animal species is alive or extinct: Sivatherium, Bowhead Whale | Bowhead Whale is alive, Sivatherium is extinct. | null | null | null | 8787 |
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null | open_qa | what is typical enterprise sales person comp mix between base and commission? | 50/50 | null | null | null | 8788 |
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null | summarization | please tell me about the golden gate bridge without quoting directly from this text | The Golden Gate Bridge is a suspension bridge spanning the Golden Gate, the one-mile-wide (1.6 km) strait connecting San Francisco Bay and the Pacific Ocean. The structure links the U.S. city of San Francisco, California—the northern tip of the San Francisco Peninsula—to Marin County, carrying both U.S. Route 101 and California State Route 1 across the strait. It also carries pedestrian and bicycle traffic, and is designated as part of U.S. Bicycle Route 95. Recognized by the American Society of Civil Engineers as one of the Wonders of the Modern World, the bridge is one of the most internationally recognized symbols of San Francisco and California. | The Golden Gate Bridge is a suspension bridge spanning the Golden Gate, the one-mile-wide (1.6 km) strait connecting San Francisco Bay and the Pacific Ocean. The structure links the U.S. city of San Francisco, California—the northern tip of the San Francisco Peninsula—to Marin County, carrying both U.S. Route 101 and California State Route 1 across the strait. It also carries pedestrian and bicycle traffic, and is designated as part of U.S. Bicycle Route 95. Recognized by the American Society of Civil Engineers as one of the Wonders of the Modern World, the bridge is one of the most internationally recognized symbols of San Francisco and California. | null | null | null | 8789 |
null | information_extraction | Based on the following passage, what did Albert Einstein publish in 1905? | Long before any knowledge of electricity existed, people were aware of shocks from electric fish. Ancient Egyptian texts dating from 2750 BCE referred to these fish as the "Thunderer of the Nile", and described them as the "protectors" of all other fish. Electric fish were again reported millennia later by ancient Greek, Roman and Arabic naturalists and physicians. Several ancient writers, such as Pliny the Elder and Scribonius Largus, attested to the numbing effect of electric shocks delivered by electric catfish and electric rays, and knew that such shocks could travel along conducting objects. Patients with ailments such as gout or headache were directed to touch electric fish in the hope that the powerful jolt might cure them.
Ancient cultures around the Mediterranean knew that certain objects, such as rods of amber, could be rubbed with cat's fur to attract light objects like feathers. Thales of Miletus made a series of observations on static electricity around 600 BCE, from which he believed that friction rendered amber magnetic, in contrast to minerals such as magnetite, which needed no rubbing.
Thales was incorrect in believing the attraction was due to a magnetic effect, but later science would prove a link between magnetism and electricity. According to a controversial theory, the Parthians may have had knowledge of electroplating, based on the 1936 discovery of the Baghdad Battery, which resembles a galvanic cell, though it is uncertain whether the artifact was electrical in nature.
Electricity would remain little more than an intellectual curiosity for millennia until 1600, when the English scientist William Gilbert wrote De Magnete, in which he made a careful study of electricity and magnetism, distinguishing the lodestone effect from static electricity produced by rubbing amber. He coined the New Latin word electricus ("of amber" or "like amber",, elektron, the Greek word for "amber") to refer to the property of attracting small objects after being rubbed. This association gave rise to the English words "electric" and "electricity", which made their first appearance in print in Thomas Browne's Pseudodoxia Epidemica of 1646.
Further work was conducted in the 17th and early 18th centuries by Otto von Guericke, Robert Boyle, Stephen Gray and C. F. du Fay. Later in the 18th century, Benjamin Franklin conducted extensive research in electricity, selling his possessions to fund his work. In June 1752 he is reputed to have attached a metal key to the bottom of a dampened kite string and flown the kite in a storm-threatened sky. A succession of sparks jumping from the key to the back of his hand showed that lightning was indeed electrical in nature. He also explained the apparently paradoxical behavior of the Leyden jar as a device for storing large amounts of electrical charge in terms of electricity consisting of both positive and negative charges
In 1775, Hugh Williamson reported a series of experiments to the Royal Society on the shocks delivered by the electric eel; that same year the surgeon and anatomist John Hunter described the structure of the fish's electric organs. In 1791, Luigi Galvani published his discovery of bioelectromagnetics, demonstrating that electricity was the medium by which neurons passed signals to the muscles. Alessandro Volta's battery, or voltaic pile, of 1800, made from alternating layers of zinc and copper, provided scientists with a more reliable source of electrical energy than the electrostatic machines previously used. The recognition of electromagnetism, the unity of electric and magnetic phenomena, is due to Hans Christian Ørsted and André-Marie Ampère in 1819–1820. Michael Faraday invented the electric motor in 1821, and Georg Ohm mathematically analysed the electrical circuit in 1827. Electricity and magnetism (and light) were definitively linked by James Clerk Maxwell, in particular in his "On Physical Lines of Force" in 1861 and 1862.
While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life.
In 1887, Heinrich Hertz discovered that electrodes illuminated with ultraviolet light create electric sparks more easily. In 1905, Albert Einstein published a paper that explained experimental data from the photoelectric effect as being the result of light energy being carried in discrete quantized packets, energising electrons. This discovery led to the quantum revolution. Einstein was awarded the Nobel Prize in Physics in 1921 for "his discovery of the law of the photoelectric effect". The photoelectric effect is also employed in photocells such as can be found in solar panels.
The first solid-state device was the "cat's-whisker detector" first used in the 1900s in radio receivers. A whisker-like wire is placed lightly in contact with a solid crystal (such as a germanium crystal) to detect a radio signal by the contact junction effect. In a solid-state component, the current is confined to solid elements and compounds engineered specifically to switch and amplify it. Current flow can be understood in two forms: as negatively charged electrons, and as positively charged electron deficiencies called holes. These charges and holes are understood in terms of quantum physics. The building material is most often a crystalline semiconductor.
Solid-state electronics came into its own with the emergence of transistor technology. The first working transistor, a germanium-based point-contact transistor, was invented by John Bardeen and Walter Houser Brattain at Bell Labs in 1947, followed by the bipolar junction transistor in 1948. | In 1905, Albert Einstein published a paper that explained experimental data from the photoelectric effect as being the result of light energy being carried in discrete quantized packets, energising electrons. This discovery led to the quantum revolution. Einstein was awarded the Nobel Prize in Physics in 1921 for "his discovery of the law of the photoelectric effect". | null | null | null | 8790 |
null | general_qa | What is "strokes gained" in golf? | Strokes gained is a method of measuring a golfer's performance that revolutionized how people think about golf strategy and how they compare the performance of golfers.
Simply put, strokes gained measures how many strokes a player gains on every shot they hit in a round of golf.
For example, if a player stands on the tee of a par 4 that is 375 yards long, their expected score for the hole for their skill level would be 4.0 strokes. Assume they hit a strong drive of 275 yards, and land in the fairway. Now their expected score for the hole might be 3.8. Since their expected score went from 4.0 to 3.8 as a result of the drive, they gained .2 strokes with the drive.
If you repeat this for every shot in a round of golf, you would gain a picture of strokes gained for the overall round.
One key to strokes gained is what an expected score is for each hole. This was first calculated for tour pro players when shot by shot stats were available via the ShotLink system used in pro events. With the advent of consumer-level shot tracking systems, it is now possible to generated expected scores for virtually all levels of golfers, and thus any golfer can track strokes gained for their round, as compared to any level of golfer.
Strokes gained is typically further broken down into 4 categories : Off the tee, approach, around the green, and putting.
The insights available once strokes gained was available has allowed insights into what really allows golfer to separate themselves from their competition. Most notably, strokes gained was able to show that skill in driving is much more of a separator than is putting skill. This went against many decades of conventional wisdom. | null | null | null | 8791 |
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null | classification | Which is a species of fish? Boar or Boarfish | Boarfish | null | null | null | 8792 |
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null | brainstorming | last 5 prime minister of India | Narendra Modi
Manmohan Singh
Atal Bihari Vajpayee
Deve Gowda
P.V Narsimha Rao | null | null | null | 8793 |
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null | information_extraction | What is transistor technology? | Long before any knowledge of electricity existed, people were aware of shocks from electric fish. Ancient Egyptian texts dating from 2750 BCE referred to these fish as the "Thunderer of the Nile", and described them as the "protectors" of all other fish. Electric fish were again reported millennia later by ancient Greek, Roman and Arabic naturalists and physicians. Several ancient writers, such as Pliny the Elder and Scribonius Largus, attested to the numbing effect of electric shocks delivered by electric catfish and electric rays, and knew that such shocks could travel along conducting objects. Patients with ailments such as gout or headache were directed to touch electric fish in the hope that the powerful jolt might cure them.
Ancient cultures around the Mediterranean knew that certain objects, such as rods of amber, could be rubbed with cat's fur to attract light objects like feathers. Thales of Miletus made a series of observations on static electricity around 600 BCE, from which he believed that friction rendered amber magnetic, in contrast to minerals such as magnetite, which needed no rubbing.
Thales was incorrect in believing the attraction was due to a magnetic effect, but later science would prove a link between magnetism and electricity. According to a controversial theory, the Parthians may have had knowledge of electroplating, based on the 1936 discovery of the Baghdad Battery, which resembles a galvanic cell, though it is uncertain whether the artifact was electrical in nature.
Electricity would remain little more than an intellectual curiosity for millennia until 1600, when the English scientist William Gilbert wrote De Magnete, in which he made a careful study of electricity and magnetism, distinguishing the lodestone effect from static electricity produced by rubbing amber. He coined the New Latin word electricus ("of amber" or "like amber",, elektron, the Greek word for "amber") to refer to the property of attracting small objects after being rubbed. This association gave rise to the English words "electric" and "electricity", which made their first appearance in print in Thomas Browne's Pseudodoxia Epidemica of 1646.
Further work was conducted in the 17th and early 18th centuries by Otto von Guericke, Robert Boyle, Stephen Gray and C. F. du Fay. Later in the 18th century, Benjamin Franklin conducted extensive research in electricity, selling his possessions to fund his work. In June 1752 he is reputed to have attached a metal key to the bottom of a dampened kite string and flown the kite in a storm-threatened sky. A succession of sparks jumping from the key to the back of his hand showed that lightning was indeed electrical in nature. He also explained the apparently paradoxical behavior of the Leyden jar as a device for storing large amounts of electrical charge in terms of electricity consisting of both positive and negative charges
In 1775, Hugh Williamson reported a series of experiments to the Royal Society on the shocks delivered by the electric eel; that same year the surgeon and anatomist John Hunter described the structure of the fish's electric organs. In 1791, Luigi Galvani published his discovery of bioelectromagnetics, demonstrating that electricity was the medium by which neurons passed signals to the muscles. Alessandro Volta's battery, or voltaic pile, of 1800, made from alternating layers of zinc and copper, provided scientists with a more reliable source of electrical energy than the electrostatic machines previously used. The recognition of electromagnetism, the unity of electric and magnetic phenomena, is due to Hans Christian Ørsted and André-Marie Ampère in 1819–1820. Michael Faraday invented the electric motor in 1821, and Georg Ohm mathematically analysed the electrical circuit in 1827. Electricity and magnetism (and light) were definitively linked by James Clerk Maxwell, in particular in his "On Physical Lines of Force" in 1861 and 1862.
While the early 19th century had seen rapid progress in electrical science, the late 19th century would see the greatest progress in electrical engineering. Through such people as Alexander Graham Bell, Ottó Bláthy, Thomas Edison, Galileo Ferraris, Oliver Heaviside, Ányos Jedlik, William Thomson, 1st Baron Kelvin, Charles Algernon Parsons, Werner von Siemens, Joseph Swan, Reginald Fessenden, Nikola Tesla and George Westinghouse, electricity turned from a scientific curiosity into an essential tool for modern life.
In 1887, Heinrich Hertz discovered that electrodes illuminated with ultraviolet light create electric sparks more easily. In 1905, Albert Einstein published a paper that explained experimental data from the photoelectric effect as being the result of light energy being carried in discrete quantized packets, energising electrons. This discovery led to the quantum revolution. Einstein was awarded the Nobel Prize in Physics in 1921 for "his discovery of the law of the photoelectric effect". The photoelectric effect is also employed in photocells such as can be found in solar panels.
The first solid-state device was the "cat's-whisker detector" first used in the 1900s in radio receivers. A whisker-like wire is placed lightly in contact with a solid crystal (such as a germanium crystal) to detect a radio signal by the contact junction effect. In a solid-state component, the current is confined to solid elements and compounds engineered specifically to switch and amplify it. Current flow can be understood in two forms: as negatively charged electrons, and as positively charged electron deficiencies called holes. These charges and holes are understood in terms of quantum physics. The building material is most often a crystalline semiconductor.
Solid-state electronics came into its own with the emergence of transistor technology. The first working transistor, a germanium-based point-contact transistor, was invented by John Bardeen and Walter Houser Brattain at Bell Labs in 1947, followed by the bipolar junction transistor in 1948. | Solid-state electronics came into its own with the emergence of transistor technology. The first working transistor, a germanium-based point-contact transistor, was invented by John Bardeen and Walter Houser Brattain at Bell Labs in 1947, followed by the bipolar junction transistor in 1948. | null | null | null | 8794 |
null | general_qa | Tell me about the plot to Harry Potter | Harry Potter is the story of a seemingly normal 11 year old body that lives with Aunt Petunia, Uncle Vernon and cousin Dudley. He comes to find out he is in fact, not a normal boy, but a wizard, a famous wizard at that. He is offered admission at Hogwarts School of Witchcraft and Wizardry and his epic battle across 7 books against Lord Voldermort plays out. After many trails, losses and against all odds, he is victorious over Lord Voldermort. | null | null | null | 8795 |
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null | closed_qa | In what year did Endless Nights come out? | Endless Nights in Aurora (Chinese: 極光之愛) is a 2014 Taiwanese romantic drama film directed by Lee Szu-yuan. It stars Rainie Yang and Chris Wang. It was released on December 19, 2014.
Revolving around the romantic relationship of two generations, Alisha and her mother Xiao-feng, two parallel love stories are re-enacted across two and a half decades. With equally heated passion, the star-crossed lovers in different generations are faithfully attached to their experiences in love through promises, anticipation, losses, and forgiveness. | 2014 | null | null | null | 8796 |
null | closed_qa | Extract what kind of disease is wheat mildew | Wheat mildew is a wheat disease that affects the ear, and is brought on by causes somewhat similar to those that cause blight, though at a more advanced period of the season. If this disorder comes on immediately after the first appearance of the ear, the straw is also affected—but if the grain is nearly or fully formed, injury to the straw is less discernible. Wheat may mildew where the straw is perfectly fresh, but only rarely. A severe mildew, however, retards further grain and straw maturation and leads to death. Something akin to mildew is the gum, which, in all warm moist seasons, attaches itself to the ear, and often causes considerable damage. All these different disorders are generally accompanied by insects, and by minute parasitic vegetable growths, considered by many to be the cause of the damage. Their appearance, however, may justly be attributed to the diseased state of the plant; for wherever putrefaction takes place, either in animal or vegetable substances, the presence of these parasites will never be wanting.
Another disorder that affects wheat is brought on by excessive heat, which makes the plants suffer from malnutrition, and become sickly and feeble. In this atrophic state a kind of dust gathers on the stalks and leaves, which increases with the disease, till the plant is in a great measure worn out and exhausted. The only remedy in this case, and it is one that cannot easily be administered by the hand of man, is a plentiful supply of moisture, by which, if it is received before consumption is too far advanced, the crop is benefited in a degree proportional to the extent of nourishment received, and the stage at which the disease has arrived.
Some people have recommended using blighted and mildewed wheat for seed. This, however may be hazardous. Light or defective wheat does vegetate and produce a plant, but the plant may be of poor quality and incapable of withstanding winter blasts. | Wheat mildew is a wheat disease that affects the ear | null | null | null | 8797 |
null | summarization | Please give me a comma separated list of the countries that signed the North Atlantic Treaty in April 1949 given the text below | The Treaty of Dunkirk was signed by France and the United Kingdom on 4 March 1947, during the aftermath of World War II and the start of the Cold War, as a Treaty of Alliance and Mutual Assistance in the event of possible attacks by Germany or the Soviet Union. In March 1948, this alliance was expanded in the Treaty of Brussels to include the Benelux countries, forming the Brussels Treaty Organization, commonly known as the Western Union. Talks for a wider military alliance, which could include North America, also began that month in the United States, where their foreign policy under the Truman Doctrine promoted international solidarity against actions they saw as communist aggression, such as the February 1948 coup d'état in Czechoslovakia. These talks resulted in the signature of the North Atlantic Treaty on 4 April 1949 by the member states of the Western Union plus the United States, Canada, Portugal, Italy, Norway, Denmark, and Iceland. Canadian diplomat Lester B. Pearson was a key author and drafter of the treaty. | France, United Kingdom, Belgium, Luxembourg , Netherlands, United States, Canada, Portugal, Italy, Norway, Denmark, Iceland | null | null | null | 8798 |
null | closed_qa | Where is the Kilo railway station | Kilo is a station on the VR commuter rail network on the Rantarata line located in Kilo, a district of the city of Espoo in Finland. It is situated between Leppävaara railway station and Kera railway station, approximately 13 kilometres (8.1 mi) northwest/west of Helsinki Central railway station. | Kilo is a station on the VR commuter rail network on the Rantarata line located in Kilo, a district of the city of Espoo in Finland. It is situated between Leppavaara railway station and Kera railway station, approximately 13 kilometres (8.1 mi) northwest/west of Helsinki Central railway station. | null | null | null | 8799 |
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