 = 18 - 23. Let m = i - h. Does 14 divide m?
False
Suppose -3*v - 2*v + 65 = 5*a, 8 = 2*v - 4*a. Is 6 a factor of (-34)/(6/15 + (-24)/v)?
False
Let g be 2 + (12/(-21) - (-20)/35). Suppose 2*u + 2*p + 56 = 290, -2*p = -g*u + 230. Does 31 divide u?
False
Let q be (16/(-5))/((-9)/(-270)). Let y be q*(8/(-3) + 2). Suppose -2*l + 64 = -3*o - o, 3*o + y = 2*l. Is 26 a factor of l?
False
Let t = 4 + -2. Suppose -448 = -t*i - 2*i. Is i a multiple of 13?
False
Let p(n) be the first derivative of -n**3/3 - 10*n**2 - 30*n - 21. Is p(-14) a multiple of 27?
True
Let u = -196 + 329. Suppose u = 2*y - 93. Suppose -y - 107 = -5*f. Is 8 a factor of f?
False
Suppose b - 2*b + 16 = 2*o, 6 = 2*o. Is 7 a factor of (84/b)/(((-6)/15)/(-2))?
True
Let x = 112 + 15. Is 15 a factor of x?
False
Let w(q) = -82*q + 602. Is w(-12) a multiple of 13?
True
Let f(m) = 4*m. Let d be f(-2). Suppose 6*p + 4 = 100. Is 7 a factor of -1 + p + d + 7?
True
Suppose 9*z + 68 = 5*z. Let j be (z/3)/((-10)/30). Suppose j = 5*w - 298. Is 12 a factor of w?
False
Let r(w) = 13*w + 39. Is r(4) a multiple of 8?
False
Is ((-5700)/(-30))/((-19)/(-17) - 1) a multiple of 33?
False
Suppose 3*j = 5*q + 998, 5*j - q = -0*j + 1678. Is j a multiple of 29?
False
Suppose -10*g + 995 = 245. Is g a multiple of 58?
False
Let a(p) = -p**3 + 5*p**2 + 7*p - 5. Let i = 22 - 34. Let x = -7 - i. Is a(x) a multiple of 10?
True
Let x(a) = -4*a - 8. Let v be x(0). Does 12 divide ((-1)/((-5)/24))/(v/(-100))?
True
Suppose 8*w + 6 = 10*w. Suppose h + w*q - 7 = 0, -4*h + q + 3 = -7*h. Does 5 divide 5/10 + (-9)/h?
True
Is 114 - (-1 - -17)/4 a multiple of 13?
False
Suppose 3*p + 3*m + 2*m = 115, 2 = -2*m. Suppose 0 = 4*f + f + 60. Let y = f + p. Does 7 divide y?
True
Let z be (2/((-16)/12))/(9/(-66)). Is z*((-40)/(-32) - (-2)/(-8)) a multiple of 3?
False
Let i(f) = f**3 - 11*f**2 + 2. Let p be i(11). Suppose 91 = p*o - 173. Is 43 a factor of o?
False
Let k(n) = 7*n**2 - 21*n - 40. Is k(9) a multiple of 13?
True
Let w be ((-1)/(-2) - (-3)/(-18))*27. Is 38 a factor of (-2)/3 - (1380/w)/(-2)?
True
Let l = 0 + 95. Does 35 divide 38/l - (-698)/5?
True
Suppose 4031 - 47087 = -13*s. Is 36 a factor of s?
True
Is ((-226)/(-6))/((-78)/27 + 3) a multiple of 21?
False
Let i(b) = -8*b - 2. Let w be i(-2). Suppose s - 2*n + 4 = 0, 0*s + s = 5*n - 16. Is 18 a factor of s/w - (-327)/7?
False
Suppose -5*q + 22 = -8. Let p be (6/9)/(6/(-9)). Is 2/(q/129) - p a multiple of 24?
False
Let v(r) = 6*r**2 - 86*r + 12. Does 16 divide v(19)?
True
Let c(s) = 595*s. Let l be c(1). Suppose 185 = 5*u - l. Does 39 divide u?
True
Suppose 5*i = 4*f + 1323, -140 = -5*i + 5*f + 1180. Does 28 divide i?
False
Let t be 368/24 - 1/3. Let b(h) = -h**3 + 15*h**2 + 4*h - 15. Is 15 a factor of b(t)?
True
Let v be (-3 + 1)*9/(-6). Let b(i) = i**3 - 3*i**2 - 3*i - 4. Let t be b(v). Let q(z) = -z**3 - 12*z**2 + 7*z - 19. Is q(t) a multiple of 18?
False
Let s = 3 - 1. Let d be 3 - s - -131*1. Suppose 4*c = 2*o - d, -2*o + c + 85 = -35. Is o a multiple of 14?
False
Let q = 34 - -11. Suppose 0 = -30*z + 35*z - q. Suppose -153 = -3*l - z. Is 8 a factor of l?
True
Suppose -1041 - 218 = -3*o + 2*i, 0 = -5*o - i + 2094. Does 2 divide o?
False
Let w(b) be the first derivative of -b**4/4 + b**3 + 3*b**2 - 4*b + 6. Let r be w(4). Suppose r*y + 17 = 5*y. Does 10 divide y?
False
Does 8 divide (-42 + -45)*((-20)/6 - 2)?
True
Let g = 1911 - 1110. Is g a multiple of 9?
True
Let x(o) = -36*o + 40. Let p(b) = 7*b - 8. Let y(h) = -16*p(h) - 3*x(h). Is y(-4) a multiple of 7?
False
Let b be -1 + 287 + (0 - 3). Let w = b - 193. Is w a multiple of 9?
True
Suppose -4014 = -36*p + 2970. Is 10 a factor of p?
False
Suppose 20 = -2*u - 3*u. Is 9 a factor of 1/2*(-72)/u*5?
True
Suppose -u + 6 = 4. Does 17 divide 53 - ((0 - u) + 4)?
True
Let c = -333 + 513. Is c a multiple of 15?
True
Let y(n) = 12*n**2 + 5*n - 57. Is y(-8) a multiple of 61?
True
Let n = 19 + -21. Is ((-177)/12)/(n/8) a multiple of 16?
False
Is 17 a factor of 5/((-1)/2*85/(-1479))?
False
Does 15 divide (-4 - -10) + (-2988)/(-6)?
False
Let q = -25 - -116. Does 23 divide 3 + (q - 12/3)?
False
Let m(g) = -22*g - 47. Is m(-6) a multiple of 5?
True
Suppose 493 = -4*n - w, 2*n - 2*w = 2*w - 242. Let y = n - -87. Is 12 a factor of (-16)/(-2 - y/21)?
False
Let f(m) = -m**3 + 12*m**2 - 16*m + 37. Does 4 divide f(9)?
True
Let p(k) = 2*k**2 + 5*k + 4. Let a be p(-2). Suppose 4*i - g - 123 = 0, -2*i = a*g - 14 - 40. Does 12 divide i?
False
Suppose -i - 5*x + 226 = 0, -2*x = -2*i - 0*x + 428. Suppose l = -3*l + i. Suppose -4*a + 350 = l. Is 9 a factor of a?
False
Suppose -8*a = 401 + 895. Let u = -66 - a. Is u a multiple of 14?
False
Let z(f) = 9*f + 7. Let r be z(10). Suppose r = 4*v - 3*v. Does 13 divide v?
False
Suppose 2*i - 5 + 87 = 4*m, 0 = -4*i + m - 157. Suppose 2*p = 4*h + 162, 3*p + 2*h - 93 = 142. Let a = i + p. Is a a multiple of 16?
False
Suppose 385 - 5 = -5*o. Let u = o + 108. Is 27 a factor of u?
False
Is 6 a factor of (-4 + -3 + 45)/(2/12)?
True
Let d(n) = -n**3 - 8*n**2 - n - 3. Let x be d(-8). Suppose 3*w - x*j - 38 - 103 = 0, 4*w + 5*j = 153. Does 10 divide w?
False
Let f = 186 - -294. Suppose 47*i - 42*i = f. Is i a multiple of 33?
False
Let d = 441 + -288. Does 4 divide d?
False
Suppose 4*v + 234 = 778. Let j be (0 - -1) + v + 3. Suppose 5*o = 5*n + j, -3*n - n + 33 = o. Is 11 a factor of o?
False
Suppose 1524 + 2886 = 10*m. Does 21 divide m?
True
Suppose 0 = -2*r + r + 3. Let x = r - 1. Suppose 0 = -y - x + 9. Does 4 divide y?
False
Let g(q) = 165*q + 250. Does 25 divide g(10)?
True
Suppose -4*b = -3*b - 4. Suppose b*f + 0*f = 160. Does 14 divide f?
False
Suppose 4*o - 12 = 0, 5*m = 3*o + 1133 + 2548. Is 13 a factor of m?
False
Suppose 2*h = -0*h. Suppose 4*f - 6 - 10 = h. Suppose -f*w - 64 = -8*w. Is w a multiple of 16?
True
Let c(k) be the first derivative of -2*k**2 + 7*k - 1. Suppose 2*i - 4 = 0, -8*u - i = -4*u + 14. Is c(u) a multiple of 16?
False
Suppose 0*w - 14 = -2*w. Suppose -2*t - 430 = -4*j, 2*j - 4*t = -w*t + 195. Is 8/(-32) - j/(-4) a multiple of 13?
True
Let j be 40/(-10) - -1*11. Suppose -2*n - 380 = -j*n. Is n a multiple of 19?
True
Let m(h) = h**2 + 29*h - 219. Is 11 a factor of m(38)?
False
Suppose 0 = -s - 5*p - 14, 4*p + 10 = -s - 3. Let j be (150/s)/(1/(-12)). Suppose j = 2*r + 2*r. Does 10 divide r?
True
Let w be 3 - 3 - (19 + 2). Let v be 3 + (-7)/(w/594). Suppose 0 = -5*h + v + 119. Is h a multiple of 11?
False
Let w = 206 + -309. Let n = 272 - w. Does 15 divide n?
True
Let l = -6 + 8. Suppose 0 = -4*z + f + 2*f - 2, -2 = 2*z - l*f. Does 26 divide (-77 - z)*15/(-45)?
True
Is 59 a factor of 2*-6*565/(-60)?
False
Suppose -6 = -2*h + 2*s, 4*h + 3*s = 2 + 10. Suppose h*m + 0*x - x = 157, 0 = -4*m - 2*x + 226. Does 9 divide m?
True
Suppose 3*d - m - 242 = -3*m, -4*d - 4*m + 316 = 0. Does 12 divide d?
True
Let m(y) = -43*y + 20. Does 6 divide m(-4)?
True
Let p(a) be the second derivative of -a**4/12 + 5*a**3/2 - 8*a**2 + 6*a. Does 10 divide p(12)?
True
Let p(g) = -g**2 - 2*g + 23. Let s be p(0). Let m = 83 - s. Does 12 divide m?
True
Let p(r) = -15*r + 9. Let a be p(6). Let n = a - -134. Let b = n - 25. Does 7 divide b?
True
Is -26*1500/(-42) + (-8)/14 a multiple of 32?
True
Let v(s) = s**3 + 6*s**2 - 6*s + 8. Suppose 5*j = 2*j - 18. Is v(j) a multiple of 5?
False
Let s(k) be the second derivative of -k**3/2 - 5*k**2 + 10*k. Let j be (3 + -1)/((-2)/8). Is 14 a factor of s(j)?
True
Suppose z - 4*d - 233 = 0, -4 = d - 9. Is z a multiple of 11?
True
Suppose 5*g - 2*k - 30 = 3*k, 3*g + 5*k + 14 = 0. Does 4 divide ((-2 + 62)/6)/(g/10)?
False
Let p(u) = u**2 + u. Suppose -4*n + 5*n = 0. Let a be p(n). Is 14 a factor of 68 + a + -4 - 2?
False
Suppose -18354 = -12*k - 1818. Does 106 divide k?
True
Suppose -4*x - 2 + 22 = 0. Suppose -149 - 151 = x*k. Is ((-492)/k)/((-2)/(-10)) a multiple of 13?
False
Suppose 0 = -5*o + t + 244 + 78, o - 54 = -5*t. Does 7 divide o?
False
Let l(z) = -z + 27. Let f be l(18). Suppose -g + f = 3*q, 4*q = -3*g + 3 + 14. Suppose 4*j + i - 179 = 0, 72 = 2*j + g*i - 15. Is j a multiple of 18?
False
Is 5 a factor of (-3)/(-1) - (-106 + 45)?
False
Suppose v + 4 = -2*i - 0*i, 3*i + 6 = -v. Suppose 5*o - 311 + 66 = v. Is 10 a factor of o?
False
Suppose -3*x + 10 = -t, 2*t = -0*x - 4*x