e
Suppose -5*s - 8 = -3*s. Is 8 a factor of s/((-2)/(-16)*-2)?
True
Let r = 6 + -4. Suppose 0 = t - r*t. Suppose t = -4*l + 36 + 44. Is 8 a factor of l?
False
Suppose 0*a = 5*v - 3*a - 19, 8 = v - 2*a. Let f(z) = 3*z**3 + z**2 + 2. Is 14 a factor of f(v)?
False
Let r(k) = -10*k - 43. Is r(-16) a multiple of 13?
True
Suppose c - 20 = -3*c + 4*f, -5*f = -4*c + 24. Suppose -s = -3 - c. Suppose -2*j + 3*i + 47 = 10, -s*j - 3*i = -47. Is j a multiple of 14?
True
Suppose -o - 92 = -5*o. Does 23 divide o?
True
Is 5 a factor of (220/25)/((-4)/(-10))?
False
Let m(k) = -k**2 + 7*k - 3. Let u(g) = 0*g**3 + 3*g - 4 - 4*g**3 + 3*g**3 - 4*g**2. Let f be u(-5). Is 3 a factor of m(f)?
True
Suppose -x = -0*f - 4*f + 9, 5*f - 12 = x. Suppose -b = -x - 60. Let j = b - 33. Is j a multiple of 20?
False
Let c(i) = -6*i - 2. Is 7 a factor of c(-5)?
True
Let k be 130 + (-2 + 0)*-1. Suppose 4*z + 2*q = k, 4 + 29 = z + q. Suppose z = 2*y + y. Is y a multiple of 6?
False
Suppose 219 = v + 2*v. Does 34 divide v?
False
Suppose 2*k - 2*c = -0*c + 78, -159 = -5*k - 4*c. Does 6 divide k?
False
Suppose 3*j + k + 7 = 0, 4*j - 6*j + 3*k - 1 = 0. Is 1/(j/8) - -56 a multiple of 13?
True
Let z(b) = -b**2 + 3*b + 4. Let c be z(4). Suppose c*p = 2*p - 26. Does 13 divide p?
True
Let a(b) be the third derivative of b**6/60 + b**5/30 - b**3/6 - 3*b**2. Let u be a(1). Suppose -4*f = 4*n - 144, 87 = 3*f - 3*n + u. Is 16 a factor of f?
True
Let f(h) = h + 29. Does 8 divide f(-5)?
True
Let h = 119 - 48. Let s = h + -28. Is s a multiple of 9?
False
Let x(q) = -q**2 + 10*q. Suppose 4*v = t + 6 - 3, 5*v + 5*t = 35. Let f be 28/6*3/v. Does 6 divide x(f)?
False
Suppose 3*s = 3*r + 9, -r - 2*r + 16 = 2*s. Suppose 6 = g + r*g. Is g even?
True
Suppose 3*x - 427 = 5*c + 80, -3*c = -4*x + 665. Suppose -x = -4*b + 128. Is b a multiple of 28?
False
Suppose 3*r - 6*r = -15, 5*r + 151 = 4*z. Suppose 0 = 3*w - z - 37. Suppose 3*d - w = 45. Does 12 divide d?
True
Let q(l) = 21*l - 1. Is q(1) a multiple of 4?
True
Let l = 95 - 33. Does 15 divide l?
False
Let u(v) = v**3 + 8*v**2 + 3*v - 8. Does 4 divide u(-7)?
True
Suppose -5*x + 8*x = 42. Does 5 divide x?
False
Suppose 3*z + 5 = -4. Let c(q) = -5*q + 5. Does 10 divide c(z)?
True
Let v = 63 - 44. Is v/1 + (-3 - -1) a multiple of 11?
False
Let o(p) = p**2 - 1. Let x(t) = t**2 - 2*t + 14. Let g(j) = -2*o(j) + x(j). Is 4 a factor of g(0)?
True
Suppose d + 2*c - 4 = 0, 4*d = -0*d + c + 7. Suppose 7*j - d*g - 88 = 2*j, -j + 5*g = -36. Is j a multiple of 5?
False
Suppose 4*g + 5*d = 7, -19 + 3 = -5*g + d. Suppose g*p + 6 = 3*s, -s = -4*p - 27 + 7. Does 9 divide (4 - -16)*p/(-8)?
False
Suppose 5*k = -5 - 0, 0 = -5*g - 3*k + 7. Suppose -4*y + 43 = -5*o, -g*y + 3 = 3*o - 2. Is 2 a factor of y?
False
Let l(d) = d**3 - 7*d**2 + 6*d + 5. Let h be l(6). Suppose 3*j - 116 = -h*q, q - j + 5 = 33. Is q a multiple of 22?
False
Let g(t) = t**3 - 7*t**2 + 3*t + 2. Let n be (10/(-25))/(1/(-5)). Let h be n/5 + (-99)/(-15). Does 10 divide g(h)?
False
Suppose 5*l = 3*x - 2*x + 2, 5*l - 3*x = 6. Suppose 0 = -z - l*z - 4*u + 34, 4*z - 5*u - 115 = 0. Is z a multiple of 13?
False
Suppose -3*t + 5*o = -5*t + 45, 1 = o. Does 10 divide t?
True
Let n(h) = 93*h + 2. Is n(1) a multiple of 19?
True
Let u(n) = -n - 2. Let v(m) = -m**2 + 2. Let j(s) = -3*u(s) - 4*v(s). Does 10 divide j(2)?
True
Let l(m) = m**3 + 8*m**2 + 1. Let o be l(-8). Let g(c) = 4 + c**2 - 3*c + o - 2. Is g(3) a multiple of 3?
True
Suppose 4*a + i = 12, 12 = -4*a - 0*a + 5*i. Suppose -4*l = -5*t + 85, -6*t = -3*t + a*l - 29. Is t a multiple of 6?
False
Let h(o) = 3*o + 4. Let l(a) = 4*a - 5*a - 2 + 3. Let g(z) = -h(z) + 2*l(z). Is g(-3) a multiple of 13?
True
Is 23 a factor of (-50)/(-2)*(-2)/(-2)?
False
Suppose -4*g + 2*c + 70 = g, 0 = -3*g - 4*c + 16. Is 11 a factor of 3/(-3) + (g - 0)?
True
Let u(h) be the third derivative of h**5/60 - h**4/24 + h**3/3 - h**2. Suppose 8*j - 3*j - 15 = 0. Does 3 divide u(j)?
False
Suppose -o + 10 = 4*o. Let m(f) be the first derivative of 4*f**3/3 - f**2 + 2*f + 2. Is m(o) a multiple of 7?
True
Suppose 3*s = -5*a + 122, -5*a + 12 = -s + 86. Is 13 a factor of s?
False
Let t be (153*-1 - -3) + 0. Let n = -99 - t. Does 13 divide n?
False
Suppose -8*w + 10 = -3*w. Suppose -w*f + 12 = -f + 2*u, -4*f + 60 = 2*u. Is 13 a factor of f?
False
Suppose w - 20 = -4*w, -17 = p - 5*w. Let t = p + -1. Suppose t*h - 8 - 16 = 0. Is h a multiple of 6?
True
Suppose 2*m + m + 20 = 4*q, -q = 3*m - 20. Suppose q = 3*r - 10. Does 2 divide r?
True
Let j = -4 - -7. Suppose j*b - b = 8. Suppose -z = 2*w - 13, -5*w = b*z - 27 - 10. Does 3 divide z?
True
Let o = -59 - -107. Does 16 divide o?
True
Suppose 28 = 2*u + 3*d, 4*u - 3*d - 113 + 21 = 0. Suppose 3*f + u = 146. Does 15 divide f?
False
Suppose 0 = 12*q - 22*q + 200. Does 20 divide q?
True
Let g be (-1 - 0) + 5 - 1. Suppose -g*r = 2*r - 245. Is r a multiple of 18?
False
Let k(i) = -i**3 - 3*i**2 - 4*i - 2. Let p be k(-2). Suppose 0 = -r + 4*m + 4 - 20, -5*m = p*r - 33. Suppose 52 = r*a - 0*a. Does 13 divide a?
True
Let a(y) = -y**2 + 6*y - 3. Let p be a(4). Suppose -n = -2*b + p, -b + 2*n = n. Suppose 0 = -3*m - 9, k - 3*k + 47 = -b*m. Is k a multiple of 8?
True
Let k(b) = -3*b - 5. Let t be k(-8). Suppose -1 + t = -2*h. Is 26 a factor of (-52)/(-5)*(h + 14)?
True
Suppose 0 = i + 2*i - 12. Suppose d = i*n - 5 + 8, -5*n - 35 = 5*d. Let l = 15 + d. Does 3 divide l?
False
Suppose -4*d = 3*q - 0*q - 25, 0 = -4*d + 4. Is (2*1)/(q/126) a multiple of 13?
False
Suppose 0 = 4*k + 42 - 266. Is k a multiple of 14?
True
Let w(f) = 2*f + 2. Let p(m) = m + 1. Let o(q) = 2*p(q) - 3*w(q). Let c be -3*4/18*6. Does 12 divide o(c)?
True
Is 6/9*(2 + 107 + -1) a multiple of 12?
True
Let q(m) = -5*m - 4. Let x be -6 + -1 - (-1)/(-1). Is q(x) a multiple of 12?
True
Let r = 87 + -43. Does 11 divide r?
True
Let q be 20/(-2 - 24/(-10)). Suppose -4*l - 24 = 5*g - 64, 5*l - q = 3*g. Suppose r - 13 = -n, 2*n - l - 32 = -3*r. Is r a multiple of 8?
True
Suppose z + 1 = r - 0*z, -2*r - 2*z + 10 = 0. Is (-32)/(-3) + 1/r a multiple of 7?
False
Let l = 46 - 32. Let o = -23 + l. Is 7 a factor of (60/o - 0)*-3?
False
Let o be 1*-297*2/(-6). Let l = o + -40. Is 10 a factor of l?
False
Let h = 94 - -3. Is h a multiple of 17?
False
Suppose 3*a - 20 = -4*f, 4*a - 5 = -21. Suppose j = -j + f. Suppose j*v - 176 = 3*t, -4*v = 3*t - 100 - 52. Is 19 a factor of v?
False
Let k(c) be the first derivative of 17*c**4/2 + c**3/3 - c - 3. Does 12 divide k(1)?
False
Suppose -4*a - 17 = -5*g - 8, 0 = 3*a - g - 7. Let t = 8 + a. Is t a multiple of 8?
False
Suppose m + 2*l = -2*m - 29, -5*m + l = 31. Let r(v) = -4*v - 5. Is r(m) a multiple of 10?
False
Let h(c) = -c**2 + c. Let u be h(2). Is 13 a factor of (-52)/(-12)*(u - -5)?
True
Let n = 14 + 70. Is n a multiple of 35?
False
Let t be 40/18 + (-4)/18. Suppose 5*b = 10, -3*a - 2*a + t*b = -96. Is 11 a factor of a?
False
Let a(f) = -3*f**2 + 6*f - 4. Let x be a(6). Let q = 15 + -56. Let s = q - x. Does 14 divide s?
False
Suppose o + 4*o = 420. Does 7 divide o?
True
Let s = 14 + 58. Does 24 divide s?
True
Let s be (2 + 1)/(11/(-187)). Let h = -12 - s. Is h a multiple of 13?
True
Let x(s) = -4*s + 1. Let c(v) = -v**2 - v. Let j(f) = f**3 - 8*f**2 - 3*f - 5. Let t(z) = -4*c(z) + j(z). Let m be t(4). Does 2 divide x(m)?
False
Does 5 divide (-900)/(-8)*6/9?
True
Let c be (-4)/((-9)/(-2) - 4). Let q(z) be the second derivative of z**4/12 + 2*z**3/3 - 3*z**2/2 + z. Does 14 divide q(c)?
False
Suppose h - 101 = -4*t - 18, -131 = -2*h - t. Is h a multiple of 9?
True
Suppose -3*z + 45 = 5*r, 5*r - 9 = -z + 46. Is 4 a factor of r?
True
Suppose 2*b + 0*b - 8 = 0. Let s(z) = -z**3 + 5*z**2 - 5*z + 2. Let k be s(b). Does 17 divide (-166)/(-4) - k/4?
False
Let j(n) = n + 1. Let h(z) = 3*z - 7. Let v(l) = h(l) + 3*j(l). Let k be v(9). Let f = -36 + k. Is f a multiple of 7?
True
Let i(r) = -9*r**2 + 1. Let g be i(1). Does 9 divide (-5)/(-20) + (-70)/g?
True
Suppose 0 = 5*w - 148 - 197. Is w a multiple of 23?
True
Is 24 a factor of 285/4 + 24/32?
True
Suppose 0 = 24*n - 21*n - 189. Is n a multiple of 11?
False
Is 0 + -2*(-10 + 2) a multiple of 8?
True
Let x be (-6)/(-3*3/6). Let c = 7 - x. Is c even?
False
Let s(q) = -q**3 + 5*q**2 - q - 3. Does 4 divide s(3)?
True
Let i(d) be