ddrg/math_formulas · Datasets at Hugging Face

id int64 -30,985 55.9k	text stringlengths 5 437k
-20,000	9/8 \cdot \frac{-7 \cdot z + 5 \cdot (-1)}{-7 \cdot z + 5 \cdot (-1)} = \dfrac{-63 \cdot z + 45 \cdot (-1)}{-56 \cdot z + 40 \cdot \left(-1\right)}
21,381	a - x - c = a - x - c
22,380	\\|-z_1 + V\\| = \\|V - z + z - z_1\\|
-19,461	\frac{\tfrac12 \times 7}{9 \times 1/8} = 7/2 \times \frac89
11,927	-xy + x * x + y^2 = ((x - y) * (x - y) + x^2 + y^2)/2
35,440	\frac{1}{100}\cdot 20 = 1/5
696	(w^2 + 27 \cdot x^2) \cdot 4 = (2 \cdot x)^2 \cdot 27 + (w \cdot 2) \cdot (w \cdot 2)
6,723	\left(k + 1\right)\cdot (k + 1)\cdot (1 + k) = (k + 1) \cdot (k + 1) \cdot (k + 1)
18,333	\frac{1}{z\cdot z} = \frac{1}{z \cdot z}
40,849	\|b\| = \|z - b - z\| \leq \|z - b\| + \|z\|
11,413	2^{\dfrac{1}{2}}\cdot 11 + 9\cdot 3^{1 / 2} = (3^{1 / 2} + 2^{\frac{1}{2}}) \cdot (3^{1 / 2} + 2^{\frac{1}{2}}) \cdot (3^{1 / 2} + 2^{\frac{1}{2}})
12,399	z^4 + 5z + 1 = \left(z^2 + 1\right)(z^2 + (-1)) + 5z + 5(-1) = (z + (-1))*(z^3 + z^2 + z + 6)
-28,531	-y^2 - 4\cdot y + 21 = 21 - y^2 + 4\cdot y = 21 + 4 - y^2 + 4\cdot y + 4 = 25 - \left(y + 2\right)^2 = 5^2 - (y + 2)^2
2,583	x = z = \dfrac{1}{x} + 1/z
19,053	-27 = (-4) \cdot 12 + (-3) - 2 \cdot (-6) - (-2) \cdot 6
-19,649	7\times 6/\left(9\right) = \frac{42}{9}
7,071	15 + 5100a + 10b5 = a100 + b10 + 1 + 100a + 10b + 2 + ... + a100 + b10 + 5
-23,912	\frac{60}{4 + 8} = 60/12 = \frac{1}{12}*60 = 5
29,140	A\cdot Z = A\cdot Z
13,341	d \cdot h \cdot d \cdot b/d = b \cdot h \cdot d
12,817	(\left(-1\right) + y_2)^2 = \left((-1) + y_1\right)^2 \Rightarrow \|\left(-1\right) + y_2\| = \|\left(-1\right) + y_1\|
19,074	z\cdot e = e\cdot z
34,269	-y = \left(-4 \cdot y\right)^2 + y^2 = 17 \cdot y \cdot y
7,967	2 = x^{x^{x^x*\dotsm}} rightarrow x^2 = 2
29,894	2 \cdot r \cdot r \cdot \pi \cdot 2 = 4 \cdot \pi \cdot r^2
28,581	\frac{1}{n + 1} \cdot \left(n + (-1)\right) = \dfrac{1}{n + 1} \cdot (n + 1 + 2 \cdot (-1)) = 1 - \tfrac{1}{n + 1} \cdot 2
11,811	1 + x = \dfrac{(-1) + x^2}{(-1) + x}
-26,736	\sum_{l=1}^∞ \frac{1}{(l + 1)\left(-2\right)^l}(0 + 2)^l = \sum_{l=1}^∞ 1\dfrac{2^l}{(l + 1)(-2)^l} = \sum_{l=1}^∞ \frac{(-1)^l2^l}{(l + 1)2^l} = \sum_{l=1}^∞ \dfrac{(-1)^l}{l + 1}
4,081	x^3 + 24 \cdot (-1) = x \implies x^3 - x + 24 \cdot (-1) = (x + 3 \cdot (-1)) \cdot (x \cdot x + 3 \cdot x + 8) = 0
-4,753	y \cdot y + y \cdot 8 + 15 = (y + 3) \cdot (5 + y)
5,556	{6 + 4 + (-1) \choose \left(-1\right) + 4} = 84
-4,554	3(-1) + x^2 - 2x = \left(x + 1\right)(3\left(-1\right) + x)
36,311	a^n\times a^m = a^{m + n}
-29,004	\dfrac{1}{2} \cdot (-27 - 44) = -35.5
-2,210	-1/17 + \frac{1}{17} \cdot 5 = 4/17
8,050	136*(-1) + 504 = 368
-17,093	-3 = -32t - -9 = -6t + 9 = -6t + 9
-711	e^{\pi \cdot i/4 \cdot 19} = (e^{\dfrac{\pi}{4} \cdot i})^{19}
16,386	-(\sqrt{17} + 1)/4 = -\sqrt{17}/4 - \frac14
156	2^{1.4} = 2^{\frac{1}{5}7} = (2^7)^{\tfrac15} = 128^{1/5} > 99^{1/5}
33,640	1 - \left(\frac56\right) * \left(\frac56\right) * \left(\frac56\right) (5/6 + \frac164) = 1 - \frac{125}{144} = \frac{19}{144}
-8,088	\frac12\cdot (-3 - 7\cdot i + 3\cdot i + 7\cdot (-1)) = \frac12\cdot (-10 - 4\cdot i) = -5 - 2\cdot i
8,064	\dfrac{\pi}{5}\cdot 2 + \frac{\pi}{10} = \pi/2
16,284	4 = {4 \choose 3}\cdot {0 + 4 + (-1) \choose 0}
479	-x^2 + 2 - x^2 = 2 - 2*x^2
5,057	i/2 = \frac{1}{2} + i - \frac{1}{2}\cdot (i + 1)
-20,396	\frac{t\cdot 5 + 4}{16\cdot (-1) - t\cdot 20} = -\tfrac{1}{4}\cdot \frac{-5\cdot t + 4\cdot \left(-1\right)}{-t\cdot 5 + 4\cdot (-1)}
12,506	-g^2 + f^2 = (f - g) \cdot \left(g + f\right)
-11,080	(x + 4\cdot (-1))^2 + f = (x + 4\cdot \left(-1\right))\cdot \left(x + 4\cdot (-1)\right) + f = x^2 - 8\cdot x + 16 + f
19,390	-k + b^2 \cdot k - b \cdot b + 1 = 0\Longrightarrow 0 = (b^2 + (-1)) \cdot \left(\left(-1\right) + k\right)
3,952	99 = 11\cdot 9 = (3^2 + 2\cdot 1^2)\cdot 3^2 = \left(3^2 + 2\cdot 1 \cdot 1\right)\cdot \left(1^2 + 2\cdot 2^2\right)
-2,841	6^{\frac{1}{2}}9^{1 / 2} + 6^{1 / 2} = 6^{\frac{1}{2}} + 36^{\dfrac{1}{2}}
26,334	52 = 39 \left(-1\right) + 91
-598	\left(e^{i\pi/12}\right)^{15} = e^{15 i\pi/12}
38,738	\infty +2=\infty
9,714	t \cdot t + 6\cdot t + 10 = 1 + \left(t + 3\right)^2
25,040	l! = l\cdot \left(l + \left(-1\right)\right)!
38,535	\frac{1}{\sin{x}} = \csc{x}
11,578	\sqrt{k} + q\cdot b = q\cdot b + q\cdot b + \sqrt{k} - q\cdot b = 2\cdot b\cdot q + \tfrac{(\sqrt{k} - q\cdot b)\cdot (\sqrt{k} + q\cdot b)}{\sqrt{k} + q\cdot b} = 2\cdot b\cdot q + \frac{1}{(\sqrt{k} + b\cdot q)\cdot 1/\left(2\cdot q\right)}
294	\frac{2 \cdot y}{y + 2 \cdot \left(-1\right)} = \dfrac{1}{y + 2 \cdot \left(-1\right)} \cdot (2 \cdot y + 4 \cdot (-1) + 4) = 2 + \frac{4}{y + 2 \cdot \left(-1\right)}
41,578	\cos{0} + i \sin{0} = 1
36,494	\tan^2(\theta) = \sec^2\left(\theta\right) + (-1)
-157	-18 + 3 (-1) = -21
-28,763	\frac{y + 5\cdot (-1)}{-2\cdot y + 2} = -1/2 - \frac{1}{2 - y\cdot 2}\cdot 4
7,502	8/9 = 8\cdot \dfrac{1}{27}/(\frac{1}{3})
21,463	x_k = kx_k/k
9,884	\frac{4\cdot n + (-1)}{4\cdot n + 1} = \tfrac{1}{4\cdot n + 1}\cdot (4\cdot n + 1 + 2\cdot (-1)) = 1 - \frac{2}{4\cdot n + 1}
-20,400	-\dfrac{7}{10\cdot (-1) + n}\cdot \frac{9}{9} = -\frac{1}{9\cdot n + 90\cdot (-1)}\cdot 63
9,135	x^2 + 2\cdot x + 4 = x^2 + 2\cdot x + 1 + 3 = \left(x + 1\right)^2 + 3
16,082	32 \cdot (1 + 1/2 + \tfrac14 + \dots) = 10000 + 1000 + 100 + 10 + 1
9,401	(c \cdot b + 1) \cdot (c \cdot b + \left(-1\right)) = b^2 \cdot c^2 + (-1)
31,239	\mathbb{E}(\frac{1}{x^2}) = \dfrac{1}{x x}
-16,056	9\cdot 8\cdot 7\cdot 6 = \frac{9!}{(9 + 4\cdot (-1))!} = 3024
27,288	(N_k + 1) \cdot (N_x + (-1)) = N_k \cdot N_x + N_x - N_k + (-1) \gt N_k \cdot N_x
25,852	\frac{1}{8 + z \cdot 5} \cdot 2 = \frac{2 \cdot 1/z}{\frac{1}{z} \cdot 8 + 5}
-10,289	(10 \cdot (-1) + k \cdot 5)/k \cdot \frac44 = \frac{1}{4 \cdot k} \cdot \left(20 \cdot k + 40 \cdot (-1)\right)
-4,278	\frac{a^4}{a \cdot a \cdot a} \cdot 44/132 = \frac{44}{132 \cdot a^3} \cdot a^4
-20,187	\dfrac88 \cdot \frac{4 - 2 \cdot t}{3 + t} = \frac{32 - 16 \cdot t}{24 + 8 \cdot t}
3,918	-2 = 8 + \left(-10\right)
-10,279	-\dfrac{5}{3\cdot x + 12\cdot (-1)}\cdot \frac{5}{5} = -\frac{25}{x\cdot 15 + 60\cdot (-1)}
-18,483	4\cdot x + 2 = 10\cdot (3\cdot x + 7\cdot (-1)) = 30\cdot x + 70\cdot (-1)
36,262	\frac{1}{4} \sqrt{33} + 3/4 = \left(\sqrt{33} + 3\right)/4
3,906	\dfrac{1}{(t^2 + g^2)^2} \cdot t = \frac{\dfrac{1}{t \cdot t + g^2}}{t^2 + g^2} \cdot t
10,294	(-1/2)^{1 + k} = \frac{(-1)^{k + 1}}{2^{1 + k}}
33,608	(6^2 + (-1))/12 = \frac{35}{12}
6,964	2/n + 1 = \frac{1}{n} \cdot (2 + n)
19,551	-l \cdot 2 + x = 1 \Rightarrow l = \frac{1}{2} \cdot ((-1) + x)
2,117	-((-1) + x) + l + 1 = 2 + l - x
-2,175	-\pi/6 = -\pi\cdot \frac{1}{12}\cdot 23 + 7/4\cdot \pi
44,162	\frac{1}{x^2+4x+3}=\frac{1}{(x+1)(x+3)}=\frac{1}{2}\left(\frac{1}{x+1}-\frac{1}{x+3}\right)=\frac{1}{2}\left(\frac{1}{(x-2)+3}-\frac{1}{(x-2)+5}\right)
32,723	(-h + f) \cdot (h + f) = -h^2 + f^2
-7,002	\frac16\cdot 3\cdot \frac{1}{8}\cdot 5\cdot \frac{4}{7} = \frac{5}{28}
23,805	1 + 3 + \cdots + 2\times m + (-1) = m\times (2\times m + \left(-1\right) + 1)/2 = m^2
689	\dfrac{1}{c_1^2}\cdot c_2 \cdot c_2 = 3 \Rightarrow \frac{1}{c_1}\cdot c_2 = \frac{c_1\cdot 3}{c_2}
15,418	\tfrac{-v + 1}{(-v + 1)^{3/2}} = \tfrac{1}{\left(-v + 1\right)^{1/2}}
12,636	(a + b)^2 = a * a + 2ba + b * b
10,851	k^{1 / 2} = k^{1/2} = k^{1 - \frac{1}{2}} = \tfrac{1}{k^{1/2}}*k
31,286	\left\{..., 2, 3, 1\right\} = \mathbb{N}
-6,806	4 \times 8 \times 8 = 256
-15,819	-6\cdot 9/10 + 9/10 = -\frac{1}{10}\cdot 45

-20,000

9/8 \cdot \frac{-7 \cdot z + 5 \cdot (-1)}{-7 \cdot z + 5 \cdot (-1)} = \dfrac{-63 \cdot z + 45 \cdot (-1)}{-56 \cdot z + 40 \cdot \left(-1\right)}

21,381

a - x - c = a - x - c

22,380

\|-z_1 + V\| = \|V - z + z - z_1\|

-19,461

\frac{\tfrac12 \times 7}{9 \times 1/8} = 7/2 \times \frac89

11,927

-xy + x * x + y^2 = ((x - y) * (x - y) + x^2 + y^2)/2

35,440

\frac{1}{100}\cdot 20 = 1/5

696

(w^2 + 27 \cdot x^2) \cdot 4 = (2 \cdot x)^2 \cdot 27 + (w \cdot 2) \cdot (w \cdot 2)

6,723

\left(k + 1\right)\cdot (k + 1)\cdot (1 + k) = (k + 1) \cdot (k + 1) \cdot (k + 1)

18,333

\frac{1}{z\cdot z} = \frac{1}{z \cdot z}

40,849

|b| = |z - b - z| \leq |z - b| + |z|

11,413

2^{\dfrac{1}{2}}\cdot 11 + 9\cdot 3^{1 / 2} = (3^{1 / 2} + 2^{\frac{1}{2}}) \cdot (3^{1 / 2} + 2^{\frac{1}{2}}) \cdot (3^{1 / 2} + 2^{\frac{1}{2}})

12,399

z^4 + 5*z + 1 = \left(z^2 + 1\right)*(z^2 + (-1)) + 5*z + 5*(-1) = (z + (-1))*(z^3 + z^2 + z + 6)

-28,531

-y^2 - 4\cdot y + 21 = 21 - y^2 + 4\cdot y = 21 + 4 - y^2 + 4\cdot y + 4 = 25 - \left(y + 2\right)^2 = 5^2 - (y + 2)^2

2,583

x = z = \dfrac{1}{x} + 1/z

19,053

-27 = (-4) \cdot 12 + (-3) - 2 \cdot (-6) - (-2) \cdot 6

-19,649

7\times 6/\left(9\right) = \frac{42}{9}

7,071

15 + 5*100*a + 10*b*5 = a*100 + b*10 + 1 + 100*a + 10*b + 2 + ... + a*100 + b*10 + 5

-23,912

\frac{60}{4 + 8} = 60/12 = \frac{1}{12}*60 = 5

29,140

A\cdot Z = A\cdot Z

13,341

d \cdot h \cdot d \cdot b/d = b \cdot h \cdot d

12,817

(\left(-1\right) + y_2)^2 = \left((-1) + y_1\right)^2 \Rightarrow |\left(-1\right) + y_2| = |\left(-1\right) + y_1|

19,074

z\cdot e = e\cdot z

34,269

-y = \left(-4 \cdot y\right)^2 + y^2 = 17 \cdot y \cdot y

7,967

2 = x^{x^{x^x*\dotsm}} rightarrow x^2 = 2

29,894

2 \cdot r \cdot r \cdot \pi \cdot 2 = 4 \cdot \pi \cdot r^2

28,581

\frac{1}{n + 1} \cdot \left(n + (-1)\right) = \dfrac{1}{n + 1} \cdot (n + 1 + 2 \cdot (-1)) = 1 - \tfrac{1}{n + 1} \cdot 2

11,811

1 + x = \dfrac{(-1) + x^2}{(-1) + x}

-26,736

\sum_{l=1}^∞ \frac{1}{(l + 1)*\left(-2\right)^l}*(0 + 2)^l = \sum_{l=1}^∞ 1*\dfrac{2^l}{(l + 1)*(-2)^l} = \sum_{l=1}^∞ \frac{(-1)^l*2^l}{(l + 1)*2^l} = \sum_{l=1}^∞ \dfrac{(-1)^l}{l + 1}

4,081

x^3 + 24 \cdot (-1) = x \implies x^3 - x + 24 \cdot (-1) = (x + 3 \cdot (-1)) \cdot (x \cdot x + 3 \cdot x + 8) = 0

-4,753

y \cdot y + y \cdot 8 + 15 = (y + 3) \cdot (5 + y)

5,556

{6 + 4 + (-1) \choose \left(-1\right) + 4} = 84

-4,554

3*(-1) + x^2 - 2*x = \left(x + 1\right)*(3*\left(-1\right) + x)

36,311

a^n\times a^m = a^{m + n}

-29,004

\dfrac{1}{2} \cdot (-27 - 44) = -35.5

-2,210

-1/17 + \frac{1}{17} \cdot 5 = 4/17

8,050

136*(-1) + 504 = 368

-17,093

-3 = -3*2*t - -9 = -6*t + 9 = -6*t + 9

-711

e^{\pi \cdot i/4 \cdot 19} = (e^{\dfrac{\pi}{4} \cdot i})^{19}

16,386

-(\sqrt{17} + 1)/4 = -\sqrt{17}/4 - \frac14

156

2^{1.4} = 2^{\frac{1}{5}7} = (2^7)^{\tfrac15} = 128^{1/5} > 99^{1/5}

33,640

1 - \left(\frac56\right) * \left(\frac56\right) * \left(\frac56\right) (5/6 + \frac164) = 1 - \frac{125}{144} = \frac{19}{144}

-8,088

\frac12\cdot (-3 - 7\cdot i + 3\cdot i + 7\cdot (-1)) = \frac12\cdot (-10 - 4\cdot i) = -5 - 2\cdot i

8,064

\dfrac{\pi}{5}\cdot 2 + \frac{\pi}{10} = \pi/2

16,284

4 = {4 \choose 3}\cdot {0 + 4 + (-1) \choose 0}

479

-x^2 + 2 - x^2 = 2 - 2*x^2

5,057

i/2 = \frac{1}{2} + i - \frac{1}{2}\cdot (i + 1)

-20,396

\frac{t\cdot 5 + 4}{16\cdot (-1) - t\cdot 20} = -\tfrac{1}{4}\cdot \frac{-5\cdot t + 4\cdot \left(-1\right)}{-t\cdot 5 + 4\cdot (-1)}

12,506

-g^2 + f^2 = (f - g) \cdot \left(g + f\right)

-11,080

(x + 4\cdot (-1))^2 + f = (x + 4\cdot \left(-1\right))\cdot \left(x + 4\cdot (-1)\right) + f = x^2 - 8\cdot x + 16 + f

19,390

-k + b^2 \cdot k - b \cdot b + 1 = 0\Longrightarrow 0 = (b^2 + (-1)) \cdot \left(\left(-1\right) + k\right)

3,952

99 = 11\cdot 9 = (3^2 + 2\cdot 1^2)\cdot 3^2 = \left(3^2 + 2\cdot 1 \cdot 1\right)\cdot \left(1^2 + 2\cdot 2^2\right)

-2,841

6^{\frac{1}{2}}*9^{1 / 2} + 6^{1 / 2} = 6^{\frac{1}{2}} + 3*6^{\dfrac{1}{2}}

26,334

52 = 39 \left(-1\right) + 91

-598

\left(e^{i\pi/12}\right)^{15} = e^{15 i\pi/12}

38,738

\infty +2=\infty

9,714

t \cdot t + 6\cdot t + 10 = 1 + \left(t + 3\right)^2

25,040

l! = l\cdot \left(l + \left(-1\right)\right)!

38,535

\frac{1}{\sin{x}} = \csc{x}

11,578

\sqrt{k} + q\cdot b = q\cdot b + q\cdot b + \sqrt{k} - q\cdot b = 2\cdot b\cdot q + \tfrac{(\sqrt{k} - q\cdot b)\cdot (\sqrt{k} + q\cdot b)}{\sqrt{k} + q\cdot b} = 2\cdot b\cdot q + \frac{1}{(\sqrt{k} + b\cdot q)\cdot 1/\left(2\cdot q\right)}

294

\frac{2 \cdot y}{y + 2 \cdot \left(-1\right)} = \dfrac{1}{y + 2 \cdot \left(-1\right)} \cdot (2 \cdot y + 4 \cdot (-1) + 4) = 2 + \frac{4}{y + 2 \cdot \left(-1\right)}

41,578

\cos{0} + i \sin{0} = 1

36,494

\tan^2(\theta) = \sec^2\left(\theta\right) + (-1)

-157

-18 + 3 (-1) = -21

-28,763

\frac{y + 5\cdot (-1)}{-2\cdot y + 2} = -1/2 - \frac{1}{2 - y\cdot 2}\cdot 4

7,502

8/9 = 8\cdot \dfrac{1}{27}/(\frac{1}{3})

21,463

x_k = kx_k/k

9,884

\frac{4\cdot n + (-1)}{4\cdot n + 1} = \tfrac{1}{4\cdot n + 1}\cdot (4\cdot n + 1 + 2\cdot (-1)) = 1 - \frac{2}{4\cdot n + 1}

-20,400

-\dfrac{7}{10\cdot (-1) + n}\cdot \frac{9}{9} = -\frac{1}{9\cdot n + 90\cdot (-1)}\cdot 63

9,135

x^2 + 2\cdot x + 4 = x^2 + 2\cdot x + 1 + 3 = \left(x + 1\right)^2 + 3

16,082

32 \cdot (1 + 1/2 + \tfrac14 + \dots) = 10000 + 1000 + 100 + 10 + 1

9,401

(c \cdot b + 1) \cdot (c \cdot b + \left(-1\right)) = b^2 \cdot c^2 + (-1)

31,239

\mathbb{E}(\frac{1}{x^2}) = \dfrac{1}{x x}

-16,056

9\cdot 8\cdot 7\cdot 6 = \frac{9!}{(9 + 4\cdot (-1))!} = 3024

27,288

(N_k + 1) \cdot (N_x + (-1)) = N_k \cdot N_x + N_x - N_k + (-1) \gt N_k \cdot N_x

25,852

\frac{1}{8 + z \cdot 5} \cdot 2 = \frac{2 \cdot 1/z}{\frac{1}{z} \cdot 8 + 5}

-10,289

(10 \cdot (-1) + k \cdot 5)/k \cdot \frac44 = \frac{1}{4 \cdot k} \cdot \left(20 \cdot k + 40 \cdot (-1)\right)

-4,278

\frac{a^4}{a \cdot a \cdot a} \cdot 44/132 = \frac{44}{132 \cdot a^3} \cdot a^4

-20,187

\dfrac88 \cdot \frac{4 - 2 \cdot t}{3 + t} = \frac{32 - 16 \cdot t}{24 + 8 \cdot t}

3,918

-2 = 8 + \left(-10\right)

-10,279

-\dfrac{5}{3\cdot x + 12\cdot (-1)}\cdot \frac{5}{5} = -\frac{25}{x\cdot 15 + 60\cdot (-1)}

-18,483

4\cdot x + 2 = 10\cdot (3\cdot x + 7\cdot (-1)) = 30\cdot x + 70\cdot (-1)

36,262

\frac{1}{4} \sqrt{33} + 3/4 = \left(\sqrt{33} + 3\right)/4

3,906

\dfrac{1}{(t^2 + g^2)^2} \cdot t = \frac{\dfrac{1}{t \cdot t + g^2}}{t^2 + g^2} \cdot t

10,294

(-1/2)^{1 + k} = \frac{(-1)^{k + 1}}{2^{1 + k}}

33,608

(6^2 + (-1))/12 = \frac{35}{12}

6,964

2/n + 1 = \frac{1}{n} \cdot (2 + n)

19,551

-l \cdot 2 + x = 1 \Rightarrow l = \frac{1}{2} \cdot ((-1) + x)

2,117

-((-1) + x) + l + 1 = 2 + l - x

-2,175

-\pi/6 = -\pi\cdot \frac{1}{12}\cdot 23 + 7/4\cdot \pi

44,162

\frac{1}{x^2+4x+3}=\frac{1}{(x+1)(x+3)}=\frac{1}{2}\left(\frac{1}{x+1}-\frac{1}{x+3}\right)=\frac{1}{2}\left(\frac{1}{(x-2)+3}-\frac{1}{(x-2)+5}\right)

32,723

(-h + f) \cdot (h + f) = -h^2 + f^2

-7,002

\frac16\cdot 3\cdot \frac{1}{8}\cdot 5\cdot \frac{4}{7} = \frac{5}{28}

23,805

1 + 3 + \cdots + 2\times m + (-1) = m\times (2\times m + \left(-1\right) + 1)/2 = m^2

689

\dfrac{1}{c_1^2}\cdot c_2 \cdot c_2 = 3 \Rightarrow \frac{1}{c_1}\cdot c_2 = \frac{c_1\cdot 3}{c_2}

15,418

\tfrac{-v + 1}{(-v + 1)^{3/2}} = \tfrac{1}{\left(-v + 1\right)^{1/2}}

12,636

(a + b)^2 = a * a + 2*b*a + b * b

10,851

k^{1 / 2} = k^{1/2} = k^{1 - \frac{1}{2}} = \tfrac{1}{k^{1/2}}*k

31,286

\left\{..., 2, 3, 1\right\} = \mathbb{N}

-6,806

4 \times 8 \times 8 = 256

-15,819

-6\cdot 9/10 + 9/10 = -\frac{1}{10}\cdot 45