ddrg/math_formulas · Datasets at Hugging Face

id int64 -30,985 55.9k	text stringlengths 5 437k
36,277	\left(z_1 + z_2\right) \cdot \left(z_1 + z_2\right) = z_2^2 + z_1^2 + z_2\cdot z_1\cdot 2
1,767	yx z = zy x
7,000	2^{k+1}=2\cdot 2^k
24,593	(x + 6\cdot (-1))\cdot (x + 3\cdot \left(-1\right)) = 18 + x \cdot x - 9\cdot x
34,921	J + x = E \Rightarrow E = x^{1 / 2} + J^{1 / 2}
26,533	(1/4)^i = (\frac{1}{2})^{i*2}
-20,342	\frac{(-1) \cdot 2 l}{-l \cdot 3 + 3(-1)} \cdot 3/3 = \tfrac{(-6) l}{-9l + 9(-1)}
-4,772	\frac{1}{4 + x^2 + 5 \cdot x} \cdot (11 \cdot (-1) - x \cdot 2) = -\frac{1}{1 + x} \cdot 3 + \dfrac{1}{4 + x}
-21,611	\sin{-2 \cdot π} = 0
21,558	(-1)^{2(-1) + l} = (-1)^l
26,928	\arcsin(\sin(π + 2 \cdot \left(-1\right))) = \arcsin(\sin(2))
29,981	3 \cdot (-1) + z_2 - z_1 = 0 \Rightarrow z_1 = 3 \cdot (-1) + z_2
30,176	\cos(y) = \sin(\dfrac{\pi}{2} - y)
22,641	\left(a + f + h\right)\cdot (-f\cdot h + a \cdot a + f^2 + h^2 - a\cdot f - a\cdot h) = -3\cdot a\cdot h\cdot f + a^3 + f^3 + h^3
20,581	e + b = -1 \implies e - b = -16
-23,081	-\frac{1}{64} \cdot 81 = \dfrac{3}{4} \cdot (-27/16)
14,629	x/y = \frac{x\cdot 2}{y\cdot 2}
-20,031	\frac{1}{-4 \cdot q + 16 \cdot (-1)} \cdot 12 = 2/2 \cdot \frac{6}{-q \cdot 2 + 8 \cdot (-1)}
20,194	y*(1 + x + \bar{z}) = xy + y\bar{z} + y
-24,829	879\cdot 6 = 5274
18,321	(c + b) \cdot (c + b) = c^2 + 2 \cdot b \cdot c + b^2
9,834	(-b + a) (b + a) = a \cdot a - b \cdot b
26,692	5! - 3!\cdot 8 = 72
-18,989	5/8 = \frac{A_x}{36 \cdot \pi} \cdot 36 \cdot \pi = A_x
39,661	y^2 = l \implies y = \sqrt{l}
1,434	\cos\left(999 z + z\right) = \cos(1000 z)
1,335	\frac{1}{y^t} = y^{-t}
14,257	\cot(3\pi/2 - y) = \cot\left(\pi - y - \pi/2\right) = -\cot(y - \pi/2) = \cot(\dfrac{\pi}{2} - y) = \tan{y}
24,374	-yx = x(-y)
-20,976	\dfrac{y12}{y(-8)}1 = -\frac32\dfrac{(-4)y}{y(-4)}
13,137	Z + V\cdot t = V\cdot Z^{-\frac12 + \frac{1}{2}}\cdot t + Z^{1/2 + \dfrac{1}{2}}
-1,952	\pi \frac{13}{12} = \pi \cdot 37/12 - \pi \cdot 2
6,595	(f + (-1))\cdot (f^2 + f + 1) = f^2 \cdot f + (-1)
29,863	\arcsin\left(\sin{y}\right) = \arcsin\left(\sin(\pi - y)\right) = \pi - y
-10,778	5/5\dfrac{1}{p + 4(-1)}7 = \tfrac{35}{20(-1) + p*5}
20,044	(3!)! = \left(3! + (-1)\right)\cdot 3!\cdot \ldots\cdot 2
40,963	{6 \choose 4} = {2 + 5 + (-1) \choose 5 + (-1)}
-22,366	\left(k + 6(-1)\right)(k + 3) = k * k - 3k + 18(-1)
8,691	3 \cdot 8^3 + 8^2 \cdot 7 + 3 \cdot 8^1 + 8 \cdot 8^0 = 2016
-1,504	\frac{36}{72} = \frac{1}{72 \times \frac{1}{36}} \times 1 = 1/2
25,998	\left(x + (-1)\right)^4 + 3\cdot (x + (-1))^2 + 2 = (\left(-1\right) + x)^4 + 3\cdot x^2 - x\cdot 6 + 5
-11,910	1.575\cdot 0.1 = \tfrac{1.575}{10}
17,431	0\cdot x = \left(-1 + 1\right)\cdot x
35,124	\frac{1 \cdot 2 \cdot 2 \cdot \ldots \cdot 2}{2 \cdot 4 \cdot 6 \cdot \ldots \cdot n \cdot 2} < \frac{3 \cdot 5 \cdot \ldots \cdot (2 \cdot n + (-1))}{2 \cdot 4 \cdot 6 \cdot \ldots \cdot n \cdot 2}
40,568	-\sqrt{1 - \cos^2{x}} = -\sqrt{\sin^2{x}} = -\|\sin{x}\|
22,776	\varphi\cdot y\cdot z = \varphi\cdot y\cdot z
9,811	\frac{1}{4 \cdot 5} = -\frac{1}{5} + \frac{1}{4}
-17,206	\frac{1}{\sec^2\left(\theta\right)}\cdot \sec^2(\theta) = \frac{1}{\sec^2(\theta)}\cdot (\tan^2(\theta) + 1)
-6,528	\frac{3}{\left(a + 7\right)2} = \frac{3}{2a + 14}
-4,904	1.5 \cdot 10^{\left(-5\right) \cdot (-1) - 5} = 1.5 \cdot 10^0
6,381	\sum_{i=1}^\infty \int \|f_i\| \cdot a \cdot m\,dx \leq \int \sum_{i=1}^\infty \|f_i\| \cdot m \cdot a\,dx
18,982	42 = M + S \implies S = 42 - M
11,406	g \cdot b + e \cdot g = (e + b) \cdot g
46,243	10^6\times 4.5 = 4500000
-18,318	\tfrac{(t + 7) \cdot (t + 8 \cdot (-1))}{(t + (-1)) \cdot (t + 8 \cdot (-1))} = \dfrac{56 \cdot (-1) + t^2 - t}{t^2 - 9 \cdot t + 8}
51,691	\left(d = \frac{1}{\sqrt{x}} + \sqrt{x} \Rightarrow 1 + x = \sqrt{x}\times d\right) \Rightarrow (1 + x)^2 = d^2\times x
-22,381	(x + 6)\cdot (4\cdot (-1) + x) = 24\cdot \left(-1\right) + x \cdot x + 2\cdot x
32,967	169/1326 = \frac{1}{102} \cdot 13
-10,442	\frac{36}{24 + x\cdot 60} = 4/4\cdot \frac{1}{6 + 15\cdot x}\cdot 9
12,244	\tfrac{1}{2} = \frac{\frac13}{1 - \frac{1}{3}}
-3,183	(1 + 2)\cdot 6^{1 / 2} = 6^{\frac{1}{2}}\cdot 3
-29,331	-2i + 1 + 8 = 9 - 2i
12,645	\frac{6}{5} = 1 + 1/5
17,181	6 \cdot q + 1 = 1 + 2 \cdot q \cdot 3
22,284	18 + y \cdot y - 9y = \left(3(-1) + y\right) (y + 6\left(-1\right))
31,951	dh = \frac{1}{2}(-d^2 + (d + h)^2 - h^2)
45,983	452 = 364\cdot (-1) + 816
-20,521	\frac{n + 7}{14 + n \cdot 2} = \frac{1}{2} \cdot 1
34,536	\sum_{n=0}^\infty \frac{\left(-1\right)^n}{3^n} = \sum_{n=0}^\infty \frac{1}{9^n} - \left(\sum_{n=0}^\infty \frac{1}{9^n}\right)/3 = \frac23*\sum_{n=0}^\infty \frac{1}{9^n}
-10,684	-\frac{1}{4x^2}8 = -\frac{1}{x * x2}42/2
7,174	\frac{1}{2}(10 + 2(-1)) + (-1) = 3
12,013	(c + h)(c + h) = c + ch + h*c + h = c + h
-20,148	\frac{28 - k\cdot 42}{-21\cdot k + 49} = \frac{1}{-3\cdot k + 7}\cdot \left(-6\cdot k + 4\right)\cdot \frac77
14,234	b c = \frac{b}{c} = c^2 b
22,117	(n + 1) \cdot (n + 1) + (2 + n) \cdot n = 1 + n^2 \cdot 2 + 4 \cdot n
9,333	6 = \tfrac{1}{\frac{2}{3}*\frac14}
37,874	\|-e^{π} + 1 + 4\| = \|-e^{π} + 5\|
12,984	\frac12(3^{(-1) + n} + 1) = \frac16(3^n + 3\left(-1\right)) + 1
-15,788	-47/10 = -6\cdot \frac{9}{10} + \frac{1}{10}\cdot 7
3,356	\left(3 \cdot (-1) + k^2 - k \cdot 6 = q^2 \Rightarrow 12 \cdot (-1) + (3 \cdot \left(-1\right) + k)^2 = q \cdot q\right) \Rightarrow (3 \cdot \left(-1\right) + k + q) \cdot (k - q + 3 \cdot (-1)) = 12
33,297	\left((p + p)^2 = p + p \Rightarrow p + p = p + p + p + p\right) \Rightarrow p + p = 0
-21,606	\cos{4/3\cdot \pi} = -0.5
-26,159	-9 \cdot \cos(6 \cdot π) - -9 \cdot \cos(11 \cdot π/2) = -9 + 0 \cdot \left(-1\right) = -9
-10,590	-4/(q\cdot 60) = -\frac{1}{15\cdot q}\cdot 4/4
12,590	\sin^5{z} = \sin^4(z\cdot \sin{z}) = (1 - \cos^2{z})^2\cdot \sin{z}
12,837	\dfrac{2 \cdot z_j}{z_d \cdot 2} = \frac{z_j}{z_d}
-10,708	\frac{1}{s4}(32\left(-1\right) + s4) = 4/4(s + 8(-1))/s
13,743	\frac{z}{z + 4 \times (-1)} = \frac{1}{z + 4 \times (-1)} \times (z + 4 \times (-1) + 4) = 1 + \frac{4}{z + 4 \times (-1)}
17,256	e + b + c + d = e + b + c + d
-1,781	π\dfrac56 = \frac12π + π/3
8,412	0 = x^{\dfrac13} + 1 rightarrow x = -1
24,881	\frac12 = 0.0111 \cdot ... = 0.1
1,031	-y \cdot 3 + 15 \cdot y = 12 \cdot y
9,823	0 = 1 + 4\times 3^{9/8}\times x - 4\times x\times 3^{\dfrac18} \implies 3^{\frac{1}{8}}\times x\times 8 = -1
4,064	\mathbb{Var}(x - Y) + \mathbb{E}(x - Y) \cdot \mathbb{E}(x - Y) = \mathbb{E}((-Y + x)^2)
-2,575	(2\cdot (-1) + 3)\cdot \sqrt{5} = \sqrt{5}
15,668	\dfrac144/4/4\frac14/4 = \frac{4}{4^5}
40,934	4! = \dfrac{5!}{5}
20,875	-l \cdot 13 + 95 = 4 - 13 \cdot (l + 7 \cdot \left(-1\right))
29,094	z^3 + (-1) = (z + (-1))(z^2 + z + 2(-1)) + z3 + 3(-1)

36,277

\left(z_1 + z_2\right) \cdot \left(z_1 + z_2\right) = z_2^2 + z_1^2 + z_2\cdot z_1\cdot 2

1,767

yx z = zy x

7,000

2^{k+1}=2\cdot 2^k

24,593

(x + 6\cdot (-1))\cdot (x + 3\cdot \left(-1\right)) = 18 + x \cdot x - 9\cdot x

34,921

J + x = E \Rightarrow E = x^{1 / 2} + J^{1 / 2}

26,533

(1/4)^i = (\frac{1}{2})^{i*2}

-20,342

\frac{(-1) \cdot 2 l}{-l \cdot 3 + 3(-1)} \cdot 3/3 = \tfrac{(-6) l}{-9l + 9(-1)}

-4,772

\frac{1}{4 + x^2 + 5 \cdot x} \cdot (11 \cdot (-1) - x \cdot 2) = -\frac{1}{1 + x} \cdot 3 + \dfrac{1}{4 + x}

-21,611

\sin{-2 \cdot π} = 0

21,558

(-1)^{2(-1) + l} = (-1)^l

26,928

\arcsin(\sin(π + 2 \cdot \left(-1\right))) = \arcsin(\sin(2))

29,981

3 \cdot (-1) + z_2 - z_1 = 0 \Rightarrow z_1 = 3 \cdot (-1) + z_2

30,176

\cos(y) = \sin(\dfrac{\pi}{2} - y)

22,641

\left(a + f + h\right)\cdot (-f\cdot h + a \cdot a + f^2 + h^2 - a\cdot f - a\cdot h) = -3\cdot a\cdot h\cdot f + a^3 + f^3 + h^3

20,581

e + b = -1 \implies e - b = -16

-23,081

-\frac{1}{64} \cdot 81 = \dfrac{3}{4} \cdot (-27/16)

14,629

x/y = \frac{x\cdot 2}{y\cdot 2}

-20,031

\frac{1}{-4 \cdot q + 16 \cdot (-1)} \cdot 12 = 2/2 \cdot \frac{6}{-q \cdot 2 + 8 \cdot (-1)}

20,194

y*(1 + x + \bar{z}) = xy + y\bar{z} + y

-24,829

879\cdot 6 = 5274

18,321

(c + b) \cdot (c + b) = c^2 + 2 \cdot b \cdot c + b^2

9,834

(-b + a) (b + a) = a \cdot a - b \cdot b

26,692

5! - 3!\cdot 8 = 72

-18,989

5/8 = \frac{A_x}{36 \cdot \pi} \cdot 36 \cdot \pi = A_x

39,661

y^2 = l \implies y = \sqrt{l}

1,434

\cos\left(999 z + z\right) = \cos(1000 z)

1,335

\frac{1}{y^t} = y^{-t}

14,257

\cot(3\pi/2 - y) = \cot\left(\pi - y - \pi/2\right) = -\cot(y - \pi/2) = \cot(\dfrac{\pi}{2} - y) = \tan{y}

24,374

-y*x = x*(-y)

-20,976

\dfrac{y*12}{y*(-8)}*1 = -\frac32*\dfrac{(-4)*y}{y*(-4)}

13,137

Z + V\cdot t = V\cdot Z^{-\frac12 + \frac{1}{2}}\cdot t + Z^{1/2 + \dfrac{1}{2}}

-1,952

\pi \frac{13}{12} = \pi \cdot 37/12 - \pi \cdot 2

6,595

(f + (-1))\cdot (f^2 + f + 1) = f^2 \cdot f + (-1)

29,863

\arcsin\left(\sin{y}\right) = \arcsin\left(\sin(\pi - y)\right) = \pi - y

-10,778

5/5*\dfrac{1}{p + 4*(-1)}*7 = \tfrac{35}{20*(-1) + p*5}

20,044

(3!)! = \left(3! + (-1)\right)\cdot 3!\cdot \ldots\cdot 2

40,963

{6 \choose 4} = {2 + 5 + (-1) \choose 5 + (-1)}

-22,366

\left(k + 6*(-1)\right)*(k + 3) = k * k - 3*k + 18*(-1)

8,691

3 \cdot 8^3 + 8^2 \cdot 7 + 3 \cdot 8^1 + 8 \cdot 8^0 = 2016

-1,504

\frac{36}{72} = \frac{1}{72 \times \frac{1}{36}} \times 1 = 1/2

25,998

\left(x + (-1)\right)^4 + 3\cdot (x + (-1))^2 + 2 = (\left(-1\right) + x)^4 + 3\cdot x^2 - x\cdot 6 + 5

-11,910

1.575\cdot 0.1 = \tfrac{1.575}{10}

17,431

0\cdot x = \left(-1 + 1\right)\cdot x

35,124

\frac{1 \cdot 2 \cdot 2 \cdot \ldots \cdot 2}{2 \cdot 4 \cdot 6 \cdot \ldots \cdot n \cdot 2} < \frac{3 \cdot 5 \cdot \ldots \cdot (2 \cdot n + (-1))}{2 \cdot 4 \cdot 6 \cdot \ldots \cdot n \cdot 2}

40,568

-\sqrt{1 - \cos^2{x}} = -\sqrt{\sin^2{x}} = -|\sin{x}|

22,776

\varphi\cdot y\cdot z = \varphi\cdot y\cdot z

9,811

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

-17,206

\frac{1}{\sec^2\left(\theta\right)}\cdot \sec^2(\theta) = \frac{1}{\sec^2(\theta)}\cdot (\tan^2(\theta) + 1)

-6,528

\frac{3}{\left(a + 7\right)*2} = \frac{3}{2*a + 14}

-4,904

1.5 \cdot 10^{\left(-5\right) \cdot (-1) - 5} = 1.5 \cdot 10^0

6,381

\sum_{i=1}^\infty \int |f_i| \cdot a \cdot m\,dx \leq \int \sum_{i=1}^\infty |f_i| \cdot m \cdot a\,dx

18,982

42 = M + S \implies S = 42 - M

11,406

g \cdot b + e \cdot g = (e + b) \cdot g

46,243

10^6\times 4.5 = 4500000

-18,318

\tfrac{(t + 7) \cdot (t + 8 \cdot (-1))}{(t + (-1)) \cdot (t + 8 \cdot (-1))} = \dfrac{56 \cdot (-1) + t^2 - t}{t^2 - 9 \cdot t + 8}

51,691

\left(d = \frac{1}{\sqrt{x}} + \sqrt{x} \Rightarrow 1 + x = \sqrt{x}\times d\right) \Rightarrow (1 + x)^2 = d^2\times x

-22,381

(x + 6)\cdot (4\cdot (-1) + x) = 24\cdot \left(-1\right) + x \cdot x + 2\cdot x

32,967

169/1326 = \frac{1}{102} \cdot 13

-10,442

\frac{36}{24 + x\cdot 60} = 4/4\cdot \frac{1}{6 + 15\cdot x}\cdot 9

12,244

\tfrac{1}{2} = \frac{\frac13}{1 - \frac{1}{3}}

-3,183

(1 + 2)\cdot 6^{1 / 2} = 6^{\frac{1}{2}}\cdot 3

-29,331

-2i + 1 + 8 = 9 - 2i

12,645

\frac{6}{5} = 1 + 1/5

17,181

6 \cdot q + 1 = 1 + 2 \cdot q \cdot 3

22,284

18 + y \cdot y - 9y = \left(3(-1) + y\right) (y + 6\left(-1\right))

31,951

d*h = \frac{1}{2}*(-d^2 + (d + h)^2 - h^2)

45,983

452 = 364\cdot (-1) + 816

-20,521

\frac{n + 7}{14 + n \cdot 2} = \frac{1}{2} \cdot 1

34,536

\sum_{n=0}^\infty \frac{\left(-1\right)^n}{3^n} = \sum_{n=0}^\infty \frac{1}{9^n} - \left(\sum_{n=0}^\infty \frac{1}{9^n}\right)/3 = \frac23*\sum_{n=0}^\infty \frac{1}{9^n}

-10,684

-\frac{1}{4x^2}8 = -\frac{1}{x * x*2}4*2/2

7,174

\frac{1}{2}(10 + 2(-1)) + (-1) = 3

12,013

(c + h)*(c + h) = c + c*h + h*c + h = c + h

-20,148

\frac{28 - k\cdot 42}{-21\cdot k + 49} = \frac{1}{-3\cdot k + 7}\cdot \left(-6\cdot k + 4\right)\cdot \frac77

14,234

b c = \frac{b}{c} = c^2 b

22,117

(n + 1) \cdot (n + 1) + (2 + n) \cdot n = 1 + n^2 \cdot 2 + 4 \cdot n

9,333

6 = \tfrac{1}{\frac{2}{3}*\frac14}

37,874

|-e^{π} + 1 + 4| = |-e^{π} + 5|

12,984

\frac12(3^{(-1) + n} + 1) = \frac16(3^n + 3\left(-1\right)) + 1

-15,788

-47/10 = -6\cdot \frac{9}{10} + \frac{1}{10}\cdot 7

3,356

\left(3 \cdot (-1) + k^2 - k \cdot 6 = q^2 \Rightarrow 12 \cdot (-1) + (3 \cdot \left(-1\right) + k)^2 = q \cdot q\right) \Rightarrow (3 \cdot \left(-1\right) + k + q) \cdot (k - q + 3 \cdot (-1)) = 12

33,297

\left((p + p)^2 = p + p \Rightarrow p + p = p + p + p + p\right) \Rightarrow p + p = 0

-21,606

\cos{4/3\cdot \pi} = -0.5

-26,159

-9 \cdot \cos(6 \cdot π) - -9 \cdot \cos(11 \cdot π/2) = -9 + 0 \cdot \left(-1\right) = -9

-10,590

-4/(q\cdot 60) = -\frac{1}{15\cdot q}\cdot 4/4

12,590

\sin^5{z} = \sin^4(z\cdot \sin{z}) = (1 - \cos^2{z})^2\cdot \sin{z}

12,837

\dfrac{2 \cdot z_j}{z_d \cdot 2} = \frac{z_j}{z_d}

-10,708

\frac{1}{s*4}*(32*\left(-1\right) + s*4) = 4/4*(s + 8*(-1))/s

13,743

\frac{z}{z + 4 \times (-1)} = \frac{1}{z + 4 \times (-1)} \times (z + 4 \times (-1) + 4) = 1 + \frac{4}{z + 4 \times (-1)}

17,256

e + b + c + d = e + b + c + d

-1,781

π\dfrac56 = \frac12π + π/3

8,412

0 = x^{\dfrac13} + 1 rightarrow x = -1

24,881

\frac12 = 0.0111 \cdot ... = 0.1

1,031

-y \cdot 3 + 15 \cdot y = 12 \cdot y

9,823

0 = 1 + 4\times 3^{9/8}\times x - 4\times x\times 3^{\dfrac18} \implies 3^{\frac{1}{8}}\times x\times 8 = -1

4,064

\mathbb{Var}(x - Y) + \mathbb{E}(x - Y) \cdot \mathbb{E}(x - Y) = \mathbb{E}((-Y + x)^2)

-2,575

(2\cdot (-1) + 3)\cdot \sqrt{5} = \sqrt{5}

15,668

\dfrac14*4/4/4*\frac14/4 = \frac{4}{4^5}

40,934

4! = \dfrac{5!}{5}

20,875

-l \cdot 13 + 95 = 4 - 13 \cdot (l + 7 \cdot \left(-1\right))

29,094

z^3 + (-1) = (z + (-1))*(z^2 + z + 2*(-1)) + z*3 + 3*(-1)