ddrg/math_formulas · Datasets at Hugging Face

id int64 -30,985 55.9k	text stringlengths 5 437k
4,730	-c/d + \frac1b\cdot a = \frac{1}{d\cdot b}\cdot (a\cdot d - b\cdot c)
27,357	0 = 1 - 4*z^3 \Rightarrow \frac{1}{4} = z^3
32,992	\dfrac{{l \choose c}^2}{{l \choose c}} = {l \choose c}
11,973	g - b + l = l - b + g
21,574	VH = HV
-1,967	\frac{5}{4}\cdot \pi = \pi + \dfrac14\cdot \pi
-7,895	(15 \cdot i + 12)/(-3) = 12/(-3) + \frac{i}{-3} \cdot 15
29,602	\sin(\dfrac12\cdot 3\cdot \pi + x) = -\cos\left(x\right)
-6,687	\frac{4}{100} + \frac{40}{100} = \frac{4}{100} + \dfrac{4}{10}
16,265	\operatorname{acos}\left(1/2\right) = \dfrac{\pi}{3}
4,804	x = \frac{p}{4} + \frac{x}{4} + \dfrac120 = \frac14p + x/4
11,871	u + 1 > t,t + 1 > u\Longrightarrow u = t
40,163	vxy + \theta x' + \theta \mu = \theta v + vyx + x' \theta + \theta \mu
19,440	\dfrac{1}{x^4} + 2x^2 = \frac{1}{x^7}(x^3 + x^9*2)
80	\sqrt{\frac{1}{2}}\times (1 + \sqrt{1/2}) = \frac{1}{2} + \sqrt{1/2} \gt 1
3,231	1 - \frac{1}{16} = \frac{1}{16}*15
12,862	\sin{ix} = \left(e^{-x} - e^x\right)/\left(2i\right) = i\sinh{x}
-20,627	(28y + 63(-1))/((-1)14y) = (y4 + 9(-1))/((-1)2y)*7/7
-20,297	\tfrac{1}{t + 4}(t + 4)/9 = \dfrac{t + 4}{9t + 36}
-29,609	d/dx \left(2x^4\right) = 2\frac{d}{dx} x^4 = 2\cdot 4x \cdot x \cdot x = 8x^3
11,434	\frac{\partial}{\partial x} F_1 + \frac{\partial}{\partial x} F_2 = \frac{\partial}{\partial x} \left(F_1 + F_2\right)
-3,275	112^{\frac{1}{2}} - 7^{1 / 2} + 28^{\frac{1}{2}} = (47)^{1 / 2} + (167)^{\dfrac{1}{2}} - 7^{1 / 2}
14,845	l^2 \cdot 17 = (4 \cdot l)^2 + l \cdot l
4,088	a\cdot x\cdot g = a\cdot (x + g + 2\cdot x\cdot g) = a + x + g + 2\cdot x\cdot g + 2\cdot a\cdot x + 2\cdot a\cdot g + 4\cdot a\cdot x\cdot g
1,407	44 = 5! (-1/5! + 1 - 1/1! + 1/2! - \dfrac{1}{3!} + 1/4!)
10,863	\frac{8}{x^2 + 1} = d/dx \tan^{-1}(x)*8
18,506	\dfrac{300}{10} \cdot 3 = 90
-10,726	-(4\cdot r + 5)/r\cdot \dfrac22 = -\frac{1}{2\cdot r}\cdot (r\cdot 8 + 10)
10,909	47/15 = \frac{1}{8 + 7} \cdot (22 + 25)
-3,334	10^{1/2} \cdot \left(4 + 5\right) = 10^{1/2} \cdot 9
16,144	\frac12 (-\frac12 \pi + \tfrac{1}{2} \pi) = 0
12,000	1 = xC \Rightarrow \frac1x = C
11,703	y + y \cdot 2 = y \cdot 3
9,243	2,(k \cdot \sin\left(A\right))^2 \cdot (k \cdot \sin(A)) = \cos^2\left(A\right) \cdot (\cos^2(A))^2 = \left(k^2 \cdot l\right)^2 \Rightarrow \sin^3(A) = l^2 \cdot k
22,376	\mathbb{E}(T \cdot \cos(A + x \cdot p)) = \mathbb{E}(T) \cdot \mathbb{E}(\cos(x \cdot p + A))
8,495	\sin(t) = \sin(π - t)
39,448	3 = \sqrt{\frac2f \cdot x} - \sqrt{\dfrac{x}{f} \cdot 3 \cdot \frac{1}{2}} = \sqrt{\dfrac{x}{f}} \cdot (\sqrt{2} - \sqrt{3/2})
30,942	c_1c_2H = c_1Hc_2
13,498	\frac1BB = 1 \Rightarrow \tfrac1B = 1/B
37,668	\frac{1}{l_1 \cdot l_2} = \frac{1}{l_1 \cdot l_2}
4,194	\frac{1}{\pi \cdot 8} \cdot \frac{4}{27} = \frac{1}{\pi \cdot 54}
-20,659	\frac{\left(-24\right) \cdot m}{30 \cdot m} = \frac{m \cdot 6}{6 \cdot m} \cdot (-4/5)
33,184	40/7 = 42/7 - \frac{1}{7}\times 2
-7,117	3/10\cdot \tfrac29 = \dfrac{1}{15}
21,646	\sin{x}\cdot \cos{\beta} + \sin{\beta}\cdot \cos{x} = \sin(\beta + x)
36,800	f_2\cdot f_1 + f_1\cdot b + b\cdot f_2 = \left(-(f_1^2 + b^2 + f_2 \cdot f_2) + (f_2 + f_1 + b) \cdot (f_2 + f_1 + b)\right)/2
8,378	S^2 \cdot b = b \cdot S^2
5,106	4 \cdot z^2 + 9 \cdot y^2 = 180 \Rightarrow y^2/20 + z^2/45 = 1
16,949	\frac{1}{2} \cdot (3^n + (-1)) = 1 + 3 + 3^2 + \ldots + 3^{n + (-1)}
17,408	\cot\left(5\pi/14\right) = \cot\left(\dfrac{\pi}{2} - \frac{1}{7}\pi\right)
13,441	1/n = \frac{1}{n!}\times (n + (-1))!
28,847	-\frac{1}{4} \cdot \pi = \arctan{-1}
21,873	\left(1 + 1 + 2\cdot k - 6\cdot k + 10\cdot (-1) = 0 \Rightarrow -k\cdot 4 + 8\cdot (-1) = 0\right) \Rightarrow -2 = k
3,301	\left(y + 1 = y \Rightarrow y^2 + y2 + 1 = y^2\right) \Rightarrow 0 = y2 + 1
9,032	-\cot(x) = \cot\left(-x + \pi\right)
5,335	(x + 3)\cdot (5\cdot \left(-1\right) + x) = (x - -3)\cdot (5\cdot \left(-1\right) + x)
-22,765	\frac{18}{30} = \frac{3}{56}6
35,422	\dfrac{2\times \pi}{3} - \pi = \frac13\times \left(\left(-1\right)\times \pi\right)
36,791	\frac{W}{m^2 k} = \frac{\dfrac{W}{km}}{m}
-19,088	44/45 = A_s/(81 \pi) \cdot 81 \pi = A_s
22,388	\tfrac{1}{\cos(\theta)}*\sin(\theta) = \tan(\theta)
8,974	4 + 48 (-1) + 2 + y''' = 0 \implies 42 = y'''
-20,963	(-6 \cdot x + 2 \cdot (-1))/(-10) \cdot \frac99 = (-54 \cdot x + 18 \cdot (-1))/(-90)
-10,303	-\frac{24}{r \cdot 8 + 20} = -\dfrac{1}{r \cdot 2 + 5} \cdot 6 \cdot 4/4
19,406	\frac14x + 3/4z = (\dfrac12*(x + z) + z)/2
29,557	e + e = e\cdot 2
25,921	mn + (m + n)3 = 0 \Rightarrow 9 = (3 + m)*\left(n + 3\right),m,0 \geq n
-2,608	\sqrt{92} + \sqrt{162} = \sqrt{18} + \sqrt{32}
9,148	0 = H_2\cdot H_1 - H_2\cdot H_1 = \frac{B}{j}\cdot H_2 - \dfrac{B\cdot H_1}{x} = (H_2\cdot B\cdot x - j\cdot B\cdot H_1)/(x\cdot j)
7,775	-(n^2 + (-1))^2 + (1 + n^2)^2 = 4\cdot n \cdot n
8,872	\frac{3^{-n}}{3} = 3^{-(n + 1)}
9,475	\frac{1}{a/x - \dfrac{b}{x}} = \frac{x}{a - b}
27,990	0 \leq 9^{1/2} \implies 3 = 9^{\tfrac12}
10,534	\frac{1}{2} + 1 = \dfrac{1}{2}\cdot 3
-6,641	\dfrac{1}{(z + 1)(z + 7)}4 = \frac{4}{z * z + 8*z + 7}
7,655	2^{2^k + 2^n} = 2^{2^k} \cdot 2^{2^n}
9,079	5\cdot (13\cdot (-1) + m) + 71 = 5\cdot m + 6
-12,321	27^{1/2} = 3^{1/2}*3
8,775	m p x = x p m
36,721	(b^2 + f' \cdot f')^{\frac{1}{2}} = (f' \cdot f' + b^2)^{1 / 2}
30,916	l/2 + 1 + \frac{l}{2} + 1 = 2 + l
-16,750	3 = 3*3 p + 3 (-7) = 9 p - 21 = 9 p + 21 \left(-1\right)
-11,082	(x + 5(-1))^2 + a = (x + 5(-1))\left(x + 5(-1)\right) + a = x^2 - 10*x + 25 + a
7,144	\binom{(-1) + x}{l + (-1)}\frac{1}{l}x = \binom{x}{l}
32,987	\dfrac{45}{216} = \frac{1}{24}\cdot 5
22,609	\cos\left(y + \pi \cdot 2\right) = \cos(y)
-22,201	72 (-1) + p p - p = (p + 9 (-1)) \left(p + 8\right)
400	1 + 3 \cdot x = \frac{1}{\left(1 - x\right)^8} \cdot \left(1 + 3 \cdot x\right)
25,121	2 - 9 x^7 + 7 x^9 = (1 - x) (1 - x) (2 + 4 x + 6 x^2 + 8 x^3 + 10 x^4 + 12 x^5 + 14 x^6 + 7 x^7) \approx 63 \left(1 - x\right)^2
26,441	(r + \sqrt{2})\cdot \left(-\sqrt{2} + r\right) = r^2 + 2\cdot \left(-1\right)
2,731	\left(b a\right)^1 = b a
10,299	(1+x)^n(1+x)^n = (1+x)^{2n}
29,884	a + c \cdot i = a + c \cdot i
19,664	d_{n + (-1)}d_n^{m + (-1)}\binom{m}{1}a_m = ma_md_n^{(-1) + m}d_{(-1) + n}
19,927	a^2 + r^2 + 2\cdot a\cdot r = (a + r)^2
4,678	y \cdot y + 2\cdot J^2 + J\cdot y\cdot 2 = J^2 + (J + y)^2
20,145	5^3 + 50 + 5(-1) + 2(-1) = 168 = 4 \cdot 42
-6,423	\frac{2}{2 + 2 \cdot t} = \frac{2}{2 \cdot (1 + t)}
-16,393	5\cdot 9^{1/2}\cdot 13^{1/2} = 5\cdot 3\cdot 13^{1/2} = 15\cdot 13^{1/2}
-19,044	\tfrac{5}{8} = \frac{1}{4\pi}H_x*4\pi = H_x

4,730

-c/d + \frac1b\cdot a = \frac{1}{d\cdot b}\cdot (a\cdot d - b\cdot c)

27,357

0 = 1 - 4*z^3 \Rightarrow \frac{1}{4} = z^3

32,992

\dfrac{{l \choose c}^2}{{l \choose c}} = {l \choose c}

11,973

g - b + l = l - b + g

21,574

V*H = H*V

-1,967

\frac{5}{4}\cdot \pi = \pi + \dfrac14\cdot \pi

-7,895

(15 \cdot i + 12)/(-3) = 12/(-3) + \frac{i}{-3} \cdot 15

29,602

\sin(\dfrac12\cdot 3\cdot \pi + x) = -\cos\left(x\right)

-6,687

\frac{4}{100} + \frac{40}{100} = \frac{4}{100} + \dfrac{4}{10}

16,265

\operatorname{acos}\left(1/2\right) = \dfrac{\pi}{3}

4,804

x = \frac{p}{4} + \frac{x}{4} + \dfrac12*0 = \frac14*p + x/4

11,871

u + 1 > t,t + 1 > u\Longrightarrow u = t

40,163

vxy + \theta x' + \theta \mu = \theta v + vyx + x' \theta + \theta \mu

19,440

\dfrac{1}{x^4} + 2*x^2 = \frac{1}{x^7}*(x^3 + x^9*2)

80

\sqrt{\frac{1}{2}}\times (1 + \sqrt{1/2}) = \frac{1}{2} + \sqrt{1/2} \gt 1

3,231

1 - \frac{1}{16} = \frac{1}{16}*15

12,862

\sin{ix} = \left(e^{-x} - e^x\right)/\left(2i\right) = i\sinh{x}

-20,627

(28*y + 63*(-1))/((-1)*14*y) = (y*4 + 9*(-1))/((-1)*2*y)*7/7

-20,297

\tfrac{1}{t + 4}*(t + 4)/9 = \dfrac{t + 4}{9*t + 36}

-29,609

d/dx \left(2x^4\right) = 2\frac{d}{dx} x^4 = 2\cdot 4x \cdot x \cdot x = 8x^3

11,434

\frac{\partial}{\partial x} F_1 + \frac{\partial}{\partial x} F_2 = \frac{\partial}{\partial x} \left(F_1 + F_2\right)

-3,275

112^{\frac{1}{2}} - 7^{1 / 2} + 28^{\frac{1}{2}} = (4*7)^{1 / 2} + (16*7)^{\dfrac{1}{2}} - 7^{1 / 2}

14,845

l^2 \cdot 17 = (4 \cdot l)^2 + l \cdot l

4,088

a\cdot x\cdot g = a\cdot (x + g + 2\cdot x\cdot g) = a + x + g + 2\cdot x\cdot g + 2\cdot a\cdot x + 2\cdot a\cdot g + 4\cdot a\cdot x\cdot g

1,407

44 = 5! (-1/5! + 1 - 1/1! + 1/2! - \dfrac{1}{3!} + 1/4!)

10,863

\frac{8}{x^2 + 1} = d/dx \tan^{-1}(x)*8

18,506

\dfrac{300}{10} \cdot 3 = 90

-10,726

-(4\cdot r + 5)/r\cdot \dfrac22 = -\frac{1}{2\cdot r}\cdot (r\cdot 8 + 10)

10,909

47/15 = \frac{1}{8 + 7} \cdot (22 + 25)

-3,334

10^{1/2} \cdot \left(4 + 5\right) = 10^{1/2} \cdot 9

16,144

\frac12 (-\frac12 \pi + \tfrac{1}{2} \pi) = 0

12,000

1 = xC \Rightarrow \frac1x = C

11,703

y + y \cdot 2 = y \cdot 3

9,243

2,(k \cdot \sin\left(A\right))^2 \cdot (k \cdot \sin(A)) = \cos^2\left(A\right) \cdot (\cos^2(A))^2 = \left(k^2 \cdot l\right)^2 \Rightarrow \sin^3(A) = l^2 \cdot k

22,376

\mathbb{E}(T \cdot \cos(A + x \cdot p)) = \mathbb{E}(T) \cdot \mathbb{E}(\cos(x \cdot p + A))

8,495

\sin(t) = \sin(π - t)

39,448

3 = \sqrt{\frac2f \cdot x} - \sqrt{\dfrac{x}{f} \cdot 3 \cdot \frac{1}{2}} = \sqrt{\dfrac{x}{f}} \cdot (\sqrt{2} - \sqrt{3/2})

30,942

c_1*c_2*H = c_1*H*c_2

13,498

\frac1BB = 1 \Rightarrow \tfrac1B = 1/B

37,668

\frac{1}{l_1 \cdot l_2} = \frac{1}{l_1 \cdot l_2}

4,194

\frac{1}{\pi \cdot 8} \cdot \frac{4}{27} = \frac{1}{\pi \cdot 54}

-20,659

\frac{\left(-24\right) \cdot m}{30 \cdot m} = \frac{m \cdot 6}{6 \cdot m} \cdot (-4/5)

33,184

40/7 = 42/7 - \frac{1}{7}\times 2

-7,117

3/10\cdot \tfrac29 = \dfrac{1}{15}

21,646

\sin{x}\cdot \cos{\beta} + \sin{\beta}\cdot \cos{x} = \sin(\beta + x)

36,800

f_2\cdot f_1 + f_1\cdot b + b\cdot f_2 = \left(-(f_1^2 + b^2 + f_2 \cdot f_2) + (f_2 + f_1 + b) \cdot (f_2 + f_1 + b)\right)/2

8,378

S^2 \cdot b = b \cdot S^2

5,106

4 \cdot z^2 + 9 \cdot y^2 = 180 \Rightarrow y^2/20 + z^2/45 = 1

16,949

\frac{1}{2} \cdot (3^n + (-1)) = 1 + 3 + 3^2 + \ldots + 3^{n + (-1)}

17,408

\cot\left(5\pi/14\right) = \cot\left(\dfrac{\pi}{2} - \frac{1}{7}\pi\right)

13,441

1/n = \frac{1}{n!}\times (n + (-1))!

28,847

-\frac{1}{4} \cdot \pi = \arctan{-1}

21,873

\left(1 + 1 + 2\cdot k - 6\cdot k + 10\cdot (-1) = 0 \Rightarrow -k\cdot 4 + 8\cdot (-1) = 0\right) \Rightarrow -2 = k

3,301

\left(y + 1 = y \Rightarrow y^2 + y*2 + 1 = y^2\right) \Rightarrow 0 = y*2 + 1

9,032

-\cot(x) = \cot\left(-x + \pi\right)

5,335

(x + 3)\cdot (5\cdot \left(-1\right) + x) = (x - -3)\cdot (5\cdot \left(-1\right) + x)

-22,765

\frac{18}{30} = \frac{3}{5*6}*6

35,422

\dfrac{2\times \pi}{3} - \pi = \frac13\times \left(\left(-1\right)\times \pi\right)

36,791

\frac{W}{m^2 k} = \frac{\dfrac{W}{km}}{m}

-19,088

44/45 = A_s/(81 \pi) \cdot 81 \pi = A_s

22,388

\tfrac{1}{\cos(\theta)}*\sin(\theta) = \tan(\theta)

8,974

4 + 48 (-1) + 2 + y''' = 0 \implies 42 = y'''

-20,963

(-6 \cdot x + 2 \cdot (-1))/(-10) \cdot \frac99 = (-54 \cdot x + 18 \cdot (-1))/(-90)

-10,303

-\frac{24}{r \cdot 8 + 20} = -\dfrac{1}{r \cdot 2 + 5} \cdot 6 \cdot 4/4

19,406

\frac14*x + 3/4*z = (\dfrac12*(x + z) + z)/2

29,557

e + e = e\cdot 2

25,921

m*n + (m + n)*3 = 0 \Rightarrow 9 = (3 + m)*\left(n + 3\right),m,0 \geq n

-2,608

\sqrt{9*2} + \sqrt{16*2} = \sqrt{18} + \sqrt{32}

9,148

0 = H_2\cdot H_1 - H_2\cdot H_1 = \frac{B}{j}\cdot H_2 - \dfrac{B\cdot H_1}{x} = (H_2\cdot B\cdot x - j\cdot B\cdot H_1)/(x\cdot j)

7,775

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

8,872

\frac{3^{-n}}{3} = 3^{-(n + 1)}

9,475

\frac{1}{a/x - \dfrac{b}{x}} = \frac{x}{a - b}

27,990

0 \leq 9^{1/2} \implies 3 = 9^{\tfrac12}

10,534

\frac{1}{2} + 1 = \dfrac{1}{2}\cdot 3

-6,641

\dfrac{1}{(z + 1)*(z + 7)}*4 = \frac{4}{z * z + 8*z + 7}

7,655

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

9,079

5\cdot (13\cdot (-1) + m) + 71 = 5\cdot m + 6

-12,321

27^{1/2} = 3^{1/2}*3

8,775

m p x = x p m

36,721

(b^2 + f' \cdot f')^{\frac{1}{2}} = (f' \cdot f' + b^2)^{1 / 2}

30,916

l/2 + 1 + \frac{l}{2} + 1 = 2 + l

-16,750

3 = 3*3 p + 3 (-7) = 9 p - 21 = 9 p + 21 \left(-1\right)

-11,082

(x + 5*(-1))^2 + a = (x + 5*(-1))*\left(x + 5*(-1)\right) + a = x^2 - 10*x + 25 + a

7,144

\binom{(-1) + x}{l + (-1)}*\frac{1}{l}*x = \binom{x}{l}

32,987

\dfrac{45}{216} = \frac{1}{24}\cdot 5

22,609

\cos\left(y + \pi \cdot 2\right) = \cos(y)

-22,201

72 (-1) + p p - p = (p + 9 (-1)) \left(p + 8\right)

400

1 + 3 \cdot x = \frac{1}{\left(1 - x\right)^8} \cdot \left(1 + 3 \cdot x\right)

25,121

2 - 9 x^7 + 7 x^9 = (1 - x) (1 - x) (2 + 4 x + 6 x^2 + 8 x^3 + 10 x^4 + 12 x^5 + 14 x^6 + 7 x^7) \approx 63 \left(1 - x\right)^2

26,441

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

2,731

\left(b a\right)^1 = b a

10,299

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

29,884

a + c \cdot i = a + c \cdot i

19,664

d_{n + (-1)}*d_n^{m + (-1)}*\binom{m}{1}*a_m = m*a_m*d_n^{(-1) + m}*d_{(-1) + n}

19,927

a^2 + r^2 + 2\cdot a\cdot r = (a + r)^2

4,678

y \cdot y + 2\cdot J^2 + J\cdot y\cdot 2 = J^2 + (J + y)^2

20,145

5^3 + 50 + 5(-1) + 2(-1) = 168 = 4 \cdot 42

-6,423

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

-16,393

5\cdot 9^{1/2}\cdot 13^{1/2} = 5\cdot 3\cdot 13^{1/2} = 15\cdot 13^{1/2}

-19,044

\tfrac{5}{8} = \frac{1}{4\pi}H_x*4\pi = H_x