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L_0847 | convection | T_4279 | FIGURE 1.1 | image | textbook_images/convection_22749.png |
L_0847 | convection | T_4280 | FIGURE 1.2 | image | textbook_images/convection_22750.png |
L_0848 | cooling systems | T_4283 | FIGURE 1.1 | image | textbook_images/cooling_systems_22751.png |
L_0849 | covalent bonding | T_4285 | FIGURE 1.1 | image | textbook_images/covalent_bonding_22752.png |
L_0849 | covalent bonding | T_4285 | FIGURE 1.2 | image | textbook_images/covalent_bonding_22753.png |
L_0850 | crystalline carbon | T_4288 | FIGURE 1.1 | image | textbook_images/crystalline_carbon_22754.png |
L_0850 | crystalline carbon | T_4288 | FIGURE 1.2 | image | textbook_images/crystalline_carbon_22755.png |
L_0850 | crystalline carbon | T_4289 | FIGURE 1.3 | image | textbook_images/crystalline_carbon_22756.png |
L_0850 | crystalline carbon | T_4290 | FIGURE 1.4 | image | textbook_images/crystalline_carbon_22757.png |
L_0851 | daltons atomic theory | T_4292 | FIGURE 1.1 | image | textbook_images/daltons_atomic_theory_22758.png |
L_0851 | daltons atomic theory | T_4294 | FIGURE 1.2 | image | textbook_images/daltons_atomic_theory_22759.png |
L_0852 | dangers and uses of radiation | T_4297 | FIGURE 1.1 | image | textbook_images/dangers_and_uses_of_radiation_22760.png |
L_0853 | decomposition reactions | T_4300 | FIGURE 1.1 | image | textbook_images/decomposition_reactions_22762.png |
L_0854 | democrituss idea of the atom | T_4302 | FIGURE 1.1 | image | textbook_images/democrituss_idea_of_the_atom_22763.png |
L_0854 | democrituss idea of the atom | T_4304 | FIGURE 1.2 | image | textbook_images/democrituss_idea_of_the_atom_22764.png |
L_0859 | direction | T_4316 | FIGURE 1.1 | image | textbook_images/direction_22769.png |
L_0861 | distance | T_4324 | FIGURE 1.1 | image | textbook_images/distance_22772.png |
L_0862 | doppler effect | T_4326 | FIGURE 1.1 | image | textbook_images/doppler_effect_22773.png |
L_0863 | earth as a magnet | T_4328 | FIGURE 1.1 | image | textbook_images/earth_as_a_magnet_22774.png |
L_0863 | earth as a magnet | T_4328 | FIGURE 1.2 needle point instead? It points to Earths north magnetic pole, which is located at about 80 north latitude. Earth also has two south poles: a south geographic pole and a south magnetic pole. | image | textbook_images/earth_as_a_magnet_22775.png |
L_0863 | earth as a magnet | T_4329 | FIGURE 1.3 | image | textbook_images/earth_as_a_magnet_22776.png |
L_0864 | efficiency | T_4331 | FIGURE 1.1 | image | textbook_images/efficiency_22777.png |
L_0865 | einsteins concept of gravity | T_4335 | FIGURE 1.1 This diagram shows how Earths mass bends the fabric of space and time around it, causing smaller objects such as satellites to move toward Earth. | image | textbook_images/einsteins_concept_of_gravity_22778.png |
L_0866 | elastic force | T_4337 | FIGURE 1.1 And like stretchy materials, they return to their original shape when the stretching or compressing force is released. Springs are used in scales to measure weight. They also cushion the ride in a car. | image | textbook_images/elastic_force_22779.png |
L_0866 | elastic force | T_4337 | FIGURE 1.2 | image | textbook_images/elastic_force_22780.png |
L_0881 | electromagnetic spectrum | T_4380 | FIGURE 1.1 | image | textbook_images/electromagnetic_spectrum_22802.png |
L_0882 | electromagnetic waves | T_4382 | FIGURE 1.1 | image | textbook_images/electromagnetic_waves_22803.png |
L_0882 | electromagnetic waves | T_4383 | FIGURE 1.2 | image | textbook_images/electromagnetic_waves_22804.png |
L_0882 | electromagnetic waves | T_4383 | FIGURE 1.3 | image | textbook_images/electromagnetic_waves_22805.png |
L_0884 | electron cloud atomic model | T_4391 | FIGURE 1.1 | image | textbook_images/electron_cloud_atomic_model_22807.png |
L_0884 | electron cloud atomic model | T_4391 | FIGURE 1.2 | image | textbook_images/electron_cloud_atomic_model_22808.png |
L_0884 | electron cloud atomic model | T_4392 | FIGURE 1.3 | image | textbook_images/electron_cloud_atomic_model_22809.png |
L_0888 | electrons | T_4405 | FIGURE 1.1 | image | textbook_images/electrons_22817.png |
L_0888 | electrons | T_4406 | FIGURE 1.2 | image | textbook_images/electrons_22818.png |
L_0888 | electrons | T_4407 | FIGURE 1.3 | image | textbook_images/electrons_22819.png |
L_0889 | elements | T_4409 | FIGURE 1.1 | image | textbook_images/elements_22820.png |
L_0889 | elements | T_4410 | FIGURE 1.2 The red lights in this sign contain the element neon. | image | textbook_images/elements_22821.png |
L_0889 | elements | T_4411 | FIGURE 1.3 substance? | image | textbook_images/elements_22822.png |
L_0890 | endothermic reactions | T_4413 | FIGURE 1.1 | image | textbook_images/endothermic_reactions_22823.png |
L_0891 | energy | T_4416 | FIGURE 1.1 | image | textbook_images/energy_22825.png |
L_0893 | energy level | T_4423 | FIGURE 1.1 | image | textbook_images/energy_level_22826.png |
L_0893 | energy level | T_4424 | FIGURE 1.2 | image | textbook_images/energy_level_22827.png |
L_0893 | energy level | T_4425 | FIGURE 1.3 | image | textbook_images/energy_level_22828.png |
L_0893 | energy level | T_4425 | FIGURE 1.4 hold only eight electrons. This means that is outermost energy level is full. Therefore, a neon atom is very stable. | image | textbook_images/energy_level_22829.png |
L_0894 | enzymes as catalysts | T_4427 | FIGURE 1.1 | image | textbook_images/enzymes_as_catalysts_22830.png |
L_0894 | enzymes as catalysts | T_4428 | FIGURE 1.2 | image | textbook_images/enzymes_as_catalysts_22831.png |
L_0897 | exothermic reactions | T_4436 | FIGURE 1.1 | image | textbook_images/exothermic_reactions_22835.png |
L_0898 | external combustion engines | T_4439 | FIGURE 1.1 | image | textbook_images/external_combustion_engines_22837.png |
L_0899 | ferromagnetic material | T_4440 | FIGURE 1.1 Magnetic domains must be lined up by an outside magnetic field for most ferromag- netic materials to become magnets. | image | textbook_images/ferromagnetic_material_22838.png |
L_0899 | ferromagnetic material | T_4441 | FIGURE 1.2 | image | textbook_images/ferromagnetic_material_22839.png |
L_0899 | ferromagnetic material | T_4441 | FIGURE 1.3 A: Jarring or heating a magnet moves the magnetic domains out of alignment. When the magnetic domains no longer line up in the same direction, the material is no longer magnetic. | image | textbook_images/ferromagnetic_material_22840.png |
L_0899 | ferromagnetic material | T_4442 | FIGURE 1.4 | image | textbook_images/ferromagnetic_material_22841.png |
L_0901 | force | T_4446 | FIGURE 1.1 | image | textbook_images/force_22842.png |
L_0901 | force | T_4447 | FIGURE 1.2 | image | textbook_images/force_22843.png |
L_0902 | forms of energy | T_4449 | FIGURE 1.1 This drummer has mechanical energy as he moves the drumsticks to hit the drums and cymbals. The moving drumsticks also have mechanical energy, but they would have mechanical energy even if they werent moving. Thats because they have the potential to fall when the drum- mer is holding them above the floor. This potential energy is due to gravity. | image | textbook_images/forms_of_energy_22844.png |
L_0902 | forms of energy | T_4449 | FIGURE 1.2 | image | textbook_images/forms_of_energy_22845.png |
L_0902 | forms of energy | T_4449 | FIGURE 1.3 The bright lights on this stage use elec- trical energy. They are wired into the electrical system of the of the hall. The guitars and microphone also use electri- cal energy. You can see the electrical cords running from them to the outlet on the floor below the musicians. | image | textbook_images/forms_of_energy_22846.png |
L_0902 | forms of energy | T_4449 | FIGURE 1.4 starts with vibrations of his vocal cords, which are folds of tissue in his throat. The vibrations pass to surrounding particles of matter and then from one particle to another in waves. Sound waves can travel through air, water, and other substances, but not through empty space. | image | textbook_images/forms_of_energy_22847.png |
L_0904 | frequency and pitch of sound | T_4453 | FIGURE 1.1 | image | textbook_images/frequency_and_pitch_of_sound_22850.png |
L_0904 | frequency and pitch of sound | T_4453 | FIGURE 1.2 | image | textbook_images/frequency_and_pitch_of_sound_22851.png |
L_0905 | friction | T_4455 | FIGURE 1.1 | image | textbook_images/friction_22852.png |
L_0905 | friction | T_4455 | FIGURE 1.2 | image | textbook_images/friction_22853.png |
L_0905 | friction | T_4456 | FIGURE 1.3 | image | textbook_images/friction_22854.png |
L_0905 | friction | T_4456 | FIGURE 1.4 | image | textbook_images/friction_22855.png |
L_0906 | fundamental particles | T_4459 | FIGURE 1.1 | image | textbook_images/fundamental_particles_22857.png |
L_0907 | gamma decay | T_4463 | FIGURE 1.1 | image | textbook_images/gamma_decay_22858.png |
L_0908 | gamma rays | T_4467 | FIGURE 1.1 | image | textbook_images/gamma_rays_22859.png |
L_0910 | gravity | T_4474 | FIGURE 1.1 | image | textbook_images/gravity_22864.png |
L_0911 | groups with metalloids | T_4477 | FIGURE 1.1 | image | textbook_images/groups_with_metalloids_22865.png |
L_0911 | groups with metalloids | T_4480 | FIGURE 1.2 Boron is a very hard, black metalloid with a high melting point. In the mineral called borax, it is used to wash clothes. In boric acid, it is used as an eyewash and insecticide. | image | textbook_images/groups_with_metalloids_22866.png |
L_0911 | groups with metalloids | T_4480 | FIGURE 1.3 | image | textbook_images/groups_with_metalloids_22867.png |
L_0911 | groups with metalloids | T_4481 | FIGURE 1.4 | image | textbook_images/groups_with_metalloids_22868.png |
L_0911 | groups with metalloids | T_4481 | FIGURE 1.5 Tellurium is a silvery white, brittle met- alloid. It is toxic and may cause birth defects. Tellurium can conduct electricity when exposed to light, so it is used to make solar panels. It has several other uses as well. For example, it makes steel and copper easier to work with and lends color to ceramics. | image | textbook_images/groups_with_metalloids_22869.png |
L_0912 | halogens | T_4483 | FIGURE 1.1 | image | textbook_images/halogens_22870.png |
L_0912 | halogens | T_4484 | FIGURE 1.2 | image | textbook_images/halogens_22871.png |
L_0913 | hearing and the ear | T_4487 | FIGURE 1.1 | image | textbook_images/hearing_and_the_ear_22873.png |
L_0914 | hearing loss | T_4491 | FIGURE 1.1 | image | textbook_images/hearing_loss_22875.png |
L_0915 | heat | T_4495 | FIGURE 1.1 | image | textbook_images/heat_22878.png |
L_0915 | heat | T_4495 | FIGURE 1.2 | image | textbook_images/heat_22879.png |
L_0916 | heat conduction | T_4498 | FIGURE 1.1 Hot Iron: A hot iron removes the wrinkles in a shirt. Hot Cocoa: Holding a cup of hot cocoa feels good when you have cold hands. Camp Stove: This camp stove can be used to cook food in a small pot. Snow: Ouch! Can you imagine how cold this snow must feel on bare feet? | image | textbook_images/heat_conduction_22880.png |
L_0917 | heating systems | T_4500 | FIGURE 1.1 | image | textbook_images/heating_systems_22881.png |
L_0917 | heating systems | T_4502 | FIGURE 1.2 Warm-air heating system. | image | textbook_images/heating_systems_22882.png |
L_0917 | heating systems | T_4502 | FIGURE 1.3 | image | textbook_images/heating_systems_22883.png |
L_0919 | hydrocarbons | T_4511 | FIGURE 1.1 | image | textbook_images/hydrocarbons_22886.png |
L_0919 | hydrocarbons | T_4512 | FIGURE 1.2 | image | textbook_images/hydrocarbons_22887.png |
L_0920 | hydrogen and alkali metals | T_4515 | FIGURE 1.1 | image | textbook_images/hydrogen_and_alkali_metals_22888.png |
L_0920 | hydrogen and alkali metals | T_4516 | FIGURE 1.2 Hydrogen has the smallest, lightest atoms of all elements. Pure hydrogen is a colorless, odorless, tasteless gas that is nontoxic but highly flammable. Hydrogen gas exists mainly as diatomic (two-atom) molecules (H2 ), as shown in the diagram on the right. Hydrogen is the most abun- dant element in the universe and the third most abundant element on Earth, occur- ring mainly in compounds such as water. | image | textbook_images/hydrogen_and_alkali_metals_22889.png |
L_0920 | hydrogen and alkali metals | T_4516 | FIGURE 1.3 | image | textbook_images/hydrogen_and_alkali_metals_22890.png |
L_0920 | hydrogen and alkali metals | T_4516 | FIGURE 1.4 | image | textbook_images/hydrogen_and_alkali_metals_22891.png |
L_0921 | hydrogen bonding | T_4518 | FIGURE 1.1 | image | textbook_images/hydrogen_bonding_22892.png |
L_0923 | inclined plane | T_4526 | FIGURE 1.1 | image | textbook_images/inclined_plane_22894.png |
L_0923 | inclined plane | T_4526 | FIGURE 1.2 | image | textbook_images/inclined_plane_22895.png |
L_0924 | inertia | T_4527 | FIGURE 1.1 Inertia explains why its important to always wear a seat belt. | image | textbook_images/inertia_22896.png |
L_0924 | inertia | T_4529 | FIGURE 1.2 | image | textbook_images/inertia_22897.png |
L_0925 | intensity and loudness of sound | T_4531 | FIGURE 1.1 | image | textbook_images/intensity_and_loudness_of_sound_22899.png |
L_0926 | internal combustion engines | T_4534 | FIGURE 1.1 | image | textbook_images/internal_combustion_engines_22901.png |
L_0928 | ionic bonding | T_4539 | FIGURE 1.1 | image | textbook_images/ionic_bonding_22902.png |
L_0928 | ionic bonding | T_4540 | FIGURE 1.2 | image | textbook_images/ionic_bonding_22903.png |
L_0929 | ionic compounds | T_4543 | FIGURE 1.1 | image | textbook_images/ionic_compounds_22904.png |
L_0930 | ions | T_4548 | FIGURE 1.1 | image | textbook_images/ions_22906.png |
Subsets and Splits