ddrg/math_formulas · Datasets at Hugging Face

id int64 -30,985 55.9k	text stringlengths 5 437k
6,499	\frac{\pi}{6} \cdot 5 - \frac{\pi}{6} = 2 \cdot \pi/3 > 2
17,159	n\frac{1}{100}60 = n*3/5
30,262	0.1z = z\frac{10}{100}
25,371	\pi4 + 8\pi + \pi8 = 20\pi
-2,827	4\cdot \sqrt{5} + \sqrt{5}\cdot 5 = \sqrt{5}\cdot \sqrt{25} + \sqrt{16}\cdot \sqrt{5}
-27,508	12\cdot a^2 = 2\cdot a\cdot a\cdot 3\cdot 2
31,153	1 = z_1 * z_1 - j^2 z_2^2 \implies (z_1 - jz_2) \left(z_1 + jz_2\right) = 1
-9,747	0.01 (-84) = -\frac{1}{100}84 = -\frac{21}{25}
-20,055	\frac{(-9)\cdot k}{(-9)\cdot k}\cdot (-4/9) = k\cdot 36/((-81)\cdot k)
-3,067	16^{1/2}6^{1/2} - 6^{1/2} = -6^{1/2} + 46^{1/2}
33,229	z^3 = zz^2 = zz = z^2 = z
25,516	x^4 - b \cdot x^3 + x \cdot b + (-1) = (x + 1) \cdot (x^2 - x \cdot b + 1) \cdot (x + (-1))
18,537	\frac{1}{3}\cdot (f + 2) = 2\Longrightarrow f = 4
8,779	m^4 \cdot 4 + y^4 = (y^2 - y \cdot m \cdot 2 + 2 \cdot m^2) \cdot (2 \cdot m^2 + y^2 + 2 \cdot m \cdot y)
25,367	fhg = \frac{1}{h}fg = f/hg = \tfrac{fg}{h}
1,693	2(\frac12 \cdot 147 \cdot 2 + 1/2 \cdot 74 \cdot 3 + \frac{1}{2} \cdot 146 \cdot 2) = 808
7,399	56 = -3*62 + 242
18,470	Z \cdot D \cdot D + Z \cdot D^2 = D \cdot D \cdot Z \cdot 2
18,632	h^{x + n} = h^n*h^x
-15,301	\frac{x^4}{\tfrac{1}{x^{15}} \times \frac{1}{y^{10}}} = \frac{x^4}{\tfrac{1}{x^{15} \times y^{10}}}
27,305	10836 = 2^2 \cdot 3 3 \cdot 7 \cdot 43
10,588	\cos\left(-\beta + x\right) = \sin{x}\sin{\beta} + \cos{\beta}\cos{x}
28,952	\dfrac{1}{2}*45 = 22.5
8,804	T^{n + m} = T^n \cdot T^m
9,107	\dfrac{1}{l + 4\left(-1\right)}7 + l + 4 = \tfrac{l^2 + 9(-1)}{l + 4(-1)}
-29,209	2 \cdot \left(-1\right) + 0 \cdot \left(-1\right) + 0 \cdot 2 = -2
-16,055	7\cdot 6\cdot 5\cdot 4 = \dfrac{7!}{\left(7 + 4 (-1)\right)!} = 840
21,008	Y\cdot Y^W = Y\cdot Y^W
14,084	\sin{x} = \sin((2n + 1) \pi - x) = \sin(x + 2n\pi)
1,173	4 = by + 4z\Longrightarrow y = -4/b*z + 4/b
21,722	1/10 + \frac{1}{15} = \frac{1}{30}3 + 2/30 = \dfrac{5}{30}
-5,535	\frac{4}{(x + 2 \cdot (-1)) \cdot 3} = \frac{1}{3 \cdot x + 6 \cdot (-1)} \cdot 4
36,832	\int_0^k 1 \cdot 2 \cdot x\,\mathrm{d}x = 0.5 = \int\limits_k^{12} x\,\mathrm{d}x
30,906	k = (-1) + 2 \cdot k \Rightarrow 1 = k
-10,460	5/5 \cdot \frac{1}{k \cdot 10 + 10} \cdot (k \cdot 5 + 7 \cdot (-1)) = \frac{1}{k \cdot 50 + 50} \cdot (k \cdot 25 + 35 \cdot (-1))
-25,362	d/dy \cot\left(y\right) = -\dfrac{1}{\sin^2(y)}
15,132	(3 + y \cdot 5) \cdot 2 - 5 \cdot (2 y + 1) = 1 \Rightarrow ( 3 + 5 y, 1 + 2 y) = 1
36,705	133=7\cdot 19
29,270	1 + 2\cdot (2^l + \left(-1\right)) = 2^{l + 1} + (-1)
15,148	x_0 - -x_0 = 2 \cdot x_0
21,752	\frac{10}{20}\cdot 2 = 1
21,058	\frac{x^2}{4\cdot x} = x/4
-2,688	\sqrt{3}\cdot \left(3 + (-1) + 2\right) = \sqrt{3}\cdot 4
8,762	\{E,B\} \implies \{E, B\}
12,365	(n + 1)n! + n! = n!\left(n + 1 + 1\right) = n!*\left(n + 2\right)
-12,368	\sqrt{28} = 2 \cdot \sqrt{7}
21,470	\frac{1}{49} = \frac{1}{2 \times (-1) + 100} \times 2
-20,640	3/3 \cdot \dfrac{1}{j \cdot 6 + 8} \cdot 2 = \dfrac{6}{24 + 18 \cdot j}
24,244	\dfrac{1}{d^\psi} = d^{-\psi}
5,099	B \cdot x \cdot g = B \cdot x \cdot g
12,399	z^4 + 5 \cdot z + 1 = \left(z^2 + 1\right) \cdot (z^2 + (-1)) + 5 \cdot z + 5 \cdot (-1) = \left(z + (-1)\right) \cdot (z^3 + z^2 + z + 6)
-29,426	\frac{36}{5} = 3*12/5
16,939	\sin(Y)/\sin(Y/2) = 2 \cos(Y/2)
-1,264	-5/37/9 = \frac{1/97}{1/5 (-3)}
-15,858	8 \cdot \frac{1}{10} \cdot 7 - 9 \cdot \frac{3}{10} = \frac{29}{10}
-9,482	3(-1) + a22*3 = 12 a + 3(-1)
-18,691	0.2257 = \left(-1\right) \cdot 0.5 + 0.7257
17,893	\sin\left(z\right)*2 = y \implies z = \operatorname{asin}(\frac{y}{2})
8,614	y^4 + \left(-1\right) = \left(y^2 + (-1)\right)\times (y \times y + 1)
682	\frac{1}{z^6} = (1/z)^6
17,618	(1 + x)^n\cdot (1 + x)^n = (1 + x)^{2\cdot n}
1,880	\int x * x * x\sqrt{2^2 - x^2}\,dx = \int x x^2\sqrt{(x + 2)(-x + 2)}\,dx
-19,348	\tfrac{1/65}{\dfrac{1}{9}2} = \frac{9}{2}*5/6
9,407	\tfrac{5}{6}\times 1/6 + \dfrac16 = \frac{11}{36}
-2,142	\frac{7}{6}\pi + \pi/2 = \frac53\pi
30,725	(-24) \cdot 9 + 3 \cdot \left(-1\right) = -219
1,711	\frac{5}{5+4}\frac{6}{6+3} = \frac{30}{81} \approx 0.37
27,682	\frac12 = \cos{\frac13\times \pi}
-11,072	\left(y + a\right)^2 = (y + a) (y + a) = y^2 + 2a y + a^2
28,164	\binom{2}{1}*\binom{13}{1} = 26
-4,268	\frac{d^4}{d^2 * d} = \frac{dddd}{dd*d} = d
19,077	-7^3 + 3042 - 12 \cdot 12^2 = 971
8,659	a + z = w \Rightarrow z = w - a
30,702	-d_1 + f + d_2 = -(d_1 - d_2) + f
6,473	\dfrac{1}{2} \cdot (\frac{1}{1 + l} \cdot (y + 1) + \frac{y}{l + 1}) = \dfrac{2 \cdot y + 1}{2 + 2 \cdot l}
4,571	x \cap ((B' \cap U) \cup (U \cap x)) = (U \cap x) \cup (U \cap \left(B' \cap x\right))
-6,102	\frac{1}{2\left(p + 4(-1)\right)} = \tfrac{1}{p2 + 8\left(-1\right)}
-15,999	\dfrac{1}{10}5 = 65/10 - 5*\frac{5}{10}
27,145	(2\sqrt{x}) * (\sqrt{x}2)^2 = x^{\frac{3}{2}}8
14,473	z^2 \cdot 4 = \left(z \cdot 2\right) \cdot \left(z \cdot 2\right)
-5,413	10^{(-2)\left(-1\right) - 2}1.4 = 10^0*1.4
13,141	L + \epsilon \gt a rightarrow a - \epsilon \lt L
6,800	-c^2 + x \cdot c \cdot 2 = b \cdot b - a^2 \Rightarrow x = \tfrac{1}{c \cdot 2} \cdot \left(b^2 - a^2 + c^2\right)
-18,872	6 = \frac{1}{2} \cdot 12
17,467	-2 = 3 (-1) + 1^2
-8,016	\frac13 \cdot (12 + 6 \cdot i) = \tfrac{6}{3} \cdot i + \frac{12}{3}
2,186	p = p^2 = (-p)^2 = -p
27,464	2\times a\times b = b\times (a + a)
8,409	z\cdot (3939 - 6\cdot 606) = z\cdot 303
17,926	r = -n^3 + \frac{s}{3n} \Rightarrow 0 = n^6 + n^3r - \tfrac{s^3}{27}
37,539	330 + 15 \left(-1\right) = 315
43,912	771 = 3 \cdot 257
10,768	b \gt c rightarrow c^2 = cc \lt cb < b*b = b^2
1,192	\cos(-\beta + \alpha) = \cos{\beta}\cos{\alpha} + \sin{\alpha}\sin{\beta}
3,592	-z_1 + z_3 = 2 X \sin{Z} \cos{30} \Rightarrow \dfrac{1}{3^{1/2}} (-z_1 + z_3) = \sin{Z} X
14,400	\dfrac{1}{\sqrt{z^2 + 1}} = \cos(\operatorname{atan}\left(z\right))
6,514	\frac13 = \dfrac{1/36}{1/36*3} 1
18,665	(11 + \sqrt{10})(11 - \sqrt{10}) = 337
33,630	r^9 = \left(r \cdot r \cdot r\right)^3 = (r + 1)^3 = r^2 \cdot r + 1 = r + 2 = r + (-1)
4,861	gC = gC

6,499

\frac{\pi}{6} \cdot 5 - \frac{\pi}{6} = 2 \cdot \pi/3 > 2

17,159

n*\frac{1}{100}*60 = n*3/5

30,262

0.1*z = z*\frac{10}{100}

25,371

\pi*4 + 8*\pi + \pi*8 = 20*\pi

-2,827

4\cdot \sqrt{5} + \sqrt{5}\cdot 5 = \sqrt{5}\cdot \sqrt{25} + \sqrt{16}\cdot \sqrt{5}

-27,508

12\cdot a^2 = 2\cdot a\cdot a\cdot 3\cdot 2

31,153

1 = z_1 * z_1 - j^2 z_2^2 \implies (z_1 - jz_2) \left(z_1 + jz_2\right) = 1

-9,747

0.01 (-84) = -\frac{1}{100}84 = -\frac{21}{25}

-20,055

\frac{(-9)\cdot k}{(-9)\cdot k}\cdot (-4/9) = k\cdot 36/((-81)\cdot k)

-3,067

16^{1/2}*6^{1/2} - 6^{1/2} = -6^{1/2} + 4*6^{1/2}

33,229

z^3 = z*z^2 = z*z = z^2 = z

25,516

x^4 - b \cdot x^3 + x \cdot b + (-1) = (x + 1) \cdot (x^2 - x \cdot b + 1) \cdot (x + (-1))

18,537

\frac{1}{3}\cdot (f + 2) = 2\Longrightarrow f = 4

8,779

m^4 \cdot 4 + y^4 = (y^2 - y \cdot m \cdot 2 + 2 \cdot m^2) \cdot (2 \cdot m^2 + y^2 + 2 \cdot m \cdot y)

25,367

f*h*g = \frac{1}{h}*f*g = f/h*g = \tfrac{f*g}{h}

1,693

2(\frac12 \cdot 147 \cdot 2 + 1/2 \cdot 74 \cdot 3 + \frac{1}{2} \cdot 146 \cdot 2) = 808

7,399

56 = -3*62 + 242

18,470

Z \cdot D \cdot D + Z \cdot D^2 = D \cdot D \cdot Z \cdot 2

18,632

h^{x + n} = h^n*h^x

-15,301

\frac{x^4}{\tfrac{1}{x^{15}} \times \frac{1}{y^{10}}} = \frac{x^4}{\tfrac{1}{x^{15} \times y^{10}}}

27,305

10836 = 2^2 \cdot 3 3 \cdot 7 \cdot 43

10,588

\cos\left(-\beta + x\right) = \sin{x}*\sin{\beta} + \cos{\beta}*\cos{x}

28,952

\dfrac{1}{2}*45 = 22.5

8,804

T^{n + m} = T^n \cdot T^m

9,107

\dfrac{1}{l + 4*\left(-1\right)}*7 + l + 4 = \tfrac{l^2 + 9*(-1)}{l + 4*(-1)}

-29,209

2 \cdot \left(-1\right) + 0 \cdot \left(-1\right) + 0 \cdot 2 = -2

-16,055

7\cdot 6\cdot 5\cdot 4 = \dfrac{7!}{\left(7 + 4 (-1)\right)!} = 840

21,008

Y\cdot Y^W = Y\cdot Y^W

14,084

\sin{x} = \sin((2n + 1) \pi - x) = \sin(x + 2n\pi)

1,173

4 = b*y + 4*z\Longrightarrow y = -4/b*z + 4/b

21,722

1/10 + \frac{1}{15} = \frac{1}{30}3 + 2/30 = \dfrac{5}{30}

-5,535

\frac{4}{(x + 2 \cdot (-1)) \cdot 3} = \frac{1}{3 \cdot x + 6 \cdot (-1)} \cdot 4

36,832

\int_0^k 1 \cdot 2 \cdot x\,\mathrm{d}x = 0.5 = \int\limits_k^{12} x\,\mathrm{d}x

30,906

k = (-1) + 2 \cdot k \Rightarrow 1 = k

-10,460

5/5 \cdot \frac{1}{k \cdot 10 + 10} \cdot (k \cdot 5 + 7 \cdot (-1)) = \frac{1}{k \cdot 50 + 50} \cdot (k \cdot 25 + 35 \cdot (-1))

-25,362

d/dy \cot\left(y\right) = -\dfrac{1}{\sin^2(y)}

15,132

(3 + y \cdot 5) \cdot 2 - 5 \cdot (2 y + 1) = 1 \Rightarrow ( 3 + 5 y, 1 + 2 y) = 1

36,705

133=7\cdot 19

29,270

1 + 2\cdot (2^l + \left(-1\right)) = 2^{l + 1} + (-1)

15,148

x_0 - -x_0 = 2 \cdot x_0

21,752

\frac{10}{20}\cdot 2 = 1

21,058

\frac{x^2}{4\cdot x} = x/4

-2,688

\sqrt{3}\cdot \left(3 + (-1) + 2\right) = \sqrt{3}\cdot 4

8,762

\{E,B\} \implies \{E, B\}

12,365

(n + 1)*n! + n! = n!*\left(n + 1 + 1\right) = n!*\left(n + 2\right)

-12,368

\sqrt{28} = 2 \cdot \sqrt{7}

21,470

\frac{1}{49} = \frac{1}{2 \times (-1) + 100} \times 2

-20,640

3/3 \cdot \dfrac{1}{j \cdot 6 + 8} \cdot 2 = \dfrac{6}{24 + 18 \cdot j}

24,244

\dfrac{1}{d^\psi} = d^{-\psi}

5,099

B \cdot x \cdot g = B \cdot x \cdot g

12,399

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

-29,426

\frac{36}{5} = 3*12/5

16,939

\sin(Y)/\sin(Y/2) = 2 \cos(Y/2)

-1,264

-5/3*7/9 = \frac{1/9*7}{1/5 (-3)}

-15,858

8 \cdot \frac{1}{10} \cdot 7 - 9 \cdot \frac{3}{10} = \frac{29}{10}

-9,482

3(-1) + a*2*2*3 = 12 a + 3(-1)

-18,691

0.2257 = \left(-1\right) \cdot 0.5 + 0.7257

17,893

\sin\left(z\right)*2 = y \implies z = \operatorname{asin}(\frac{y}{2})

8,614

y^4 + \left(-1\right) = \left(y^2 + (-1)\right)\times (y \times y + 1)

682

\frac{1}{z^6} = (1/z)^6

17,618

(1 + x)^n\cdot (1 + x)^n = (1 + x)^{2\cdot n}

1,880

\int x * x * x*\sqrt{2^2 - x^2}\,dx = \int x * x^2*\sqrt{(x + 2)*(-x + 2)}\,dx

-19,348

\tfrac{1/6*5}{\dfrac{1}{9}*2} = \frac{9}{2}*5/6

9,407

\tfrac{5}{6}\times 1/6 + \dfrac16 = \frac{11}{36}

-2,142

\frac{7}{6}*\pi + \pi/2 = \frac53*\pi

30,725

(-24) \cdot 9 + 3 \cdot \left(-1\right) = -219

1,711

\frac{5}{5+4}\frac{6}{6+3} = \frac{30}{81} \approx 0.37

27,682

\frac12 = \cos{\frac13\times \pi}

-11,072

\left(y + a\right)^2 = (y + a) (y + a) = y^2 + 2a y + a^2

28,164

\binom{2}{1}*\binom{13}{1} = 26

-4,268

\frac{d^4}{d^2 * d} = \frac{d*d*d*d}{d*d*d} = d

19,077

-7^3 + 3042 - 12 \cdot 12^2 = 971

8,659

a + z = w \Rightarrow z = w - a

30,702

-d_1 + f + d_2 = -(d_1 - d_2) + f

6,473

\dfrac{1}{2} \cdot (\frac{1}{1 + l} \cdot (y + 1) + \frac{y}{l + 1}) = \dfrac{2 \cdot y + 1}{2 + 2 \cdot l}

4,571

x \cap ((B' \cap U) \cup (U \cap x)) = (U \cap x) \cup (U \cap \left(B' \cap x\right))

-6,102

\frac{1}{2*\left(p + 4*(-1)\right)} = \tfrac{1}{p*2 + 8*\left(-1\right)}

-15,999

\dfrac{1}{10}*5 = 6*5/10 - 5*\frac{5}{10}

27,145

(2\sqrt{x}) * (\sqrt{x}*2)^2 = x^{\frac{3}{2}}*8

14,473

z^2 \cdot 4 = \left(z \cdot 2\right) \cdot \left(z \cdot 2\right)

-5,413

10^{(-2)*\left(-1\right) - 2}*1.4 = 10^0*1.4

13,141

L + \epsilon \gt a rightarrow a - \epsilon \lt L

6,800

-c^2 + x \cdot c \cdot 2 = b \cdot b - a^2 \Rightarrow x = \tfrac{1}{c \cdot 2} \cdot \left(b^2 - a^2 + c^2\right)

-18,872

6 = \frac{1}{2} \cdot 12

17,467

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

-8,016

\frac13 \cdot (12 + 6 \cdot i) = \tfrac{6}{3} \cdot i + \frac{12}{3}

2,186

p = p^2 = (-p)^2 = -p

27,464

2\times a\times b = b\times (a + a)

8,409

z\cdot (3939 - 6\cdot 606) = z\cdot 303

17,926

r = -n^3 + \frac{s}{3*n} \Rightarrow 0 = n^6 + n^3*r - \tfrac{s^3}{27}

37,539

330 + 15 \left(-1\right) = 315

43,912

771 = 3 \cdot 257

10,768

b \gt c rightarrow c^2 = c*c \lt c*b < b*b = b^2

1,192

\cos(-\beta + \alpha) = \cos{\beta}*\cos{\alpha} + \sin{\alpha}*\sin{\beta}

3,592

-z_1 + z_3 = 2 X \sin{Z} \cos{30} \Rightarrow \dfrac{1}{3^{1/2}} (-z_1 + z_3) = \sin{Z} X

14,400

\dfrac{1}{\sqrt{z^2 + 1}} = \cos(\operatorname{atan}\left(z\right))

6,514

\frac13 = \dfrac{1/36}{1/36*3} 1

18,665

(11 + \sqrt{10})*(11 - \sqrt{10}) = 3*37

33,630

r^9 = \left(r \cdot r \cdot r\right)^3 = (r + 1)^3 = r^2 \cdot r + 1 = r + 2 = r + (-1)

4,861

g*C = g*C