(random() < 0.75 ? randRange(0, 5) : randRange(6, 10)) * randRangeNonZero(-1, 1) {0: 5, 1: 5, 2: 5, 3: 4, 4: 3, 5: 3, 6: 2, 7: 2, 8: 2, 9: 2, 10: 2}[abs(BASE)] randRange(2, EXP_RANGE) expandExponent(BASE, EXPONENT)
BASE ? negParens(BASE) + " \\cdot " + EXPONENT : 1 BASE + "+" + EXPONENT BASE ? _(EXPONENT).times(function() { return BASE; }).join("+") : EXPONENT _(abs(BASE)).times(function() { return EXPONENT; }).join(" \\cdot ")

\Large{(BASE)^{EXPONENT} = {?}} \Large{BASE^{EXPONENT} = {?}}

EXPANSION[0]
  • FAKE_SOLUTION1
  • FAKE_SOLUTION2
  • FAKE_SOLUTION3
  • FAKE_SOLUTION4

The base in this expression is BASE.

The exponent in this expression is EXPONENT.

This expression means BASE multiplied by itself EXPONENT times.

negParens(BASE)^{EXPONENT} = EXPANSION[0]

negParens(BASE) + "^{" + EXPONENT + "}" negParens(BASE) + "^{" + (EXPONENT + abs(BASE)) + "}" EXPONENT + "^{" + EXPONENT + "}" abs(BASE) !== 1 ? negParens(BASE) + "^{" + abs(BASE) + "}" : negParens(BASE) + " + " + negParens(BASE) pow(EXPONENT, BASE) === pow(BASE, EXPONENT) ? BASE * EXPONENT : EXPONENT + "^{" + BASE + "}" "-(" + (-BASE) + ")^{" + EXPONENT + "}" negParens(BASE) + "^{" + (EXPONENT * abs(BASE)) + "}"

\Large{EXPANSION[0] = {?}}

SOLUTION
  • FAKE_SOLUTION1
  • FAKE_SOLUTION2
  • FAKE_SOLUTION3
  • FAKE_SOLUTION4
  • FAKE_SOLUTION5
  • FAKE_SOLUTION6

EXPANSION[0] is BASE multiplied by itself EXPONENT times.

The base is BASE.

The exponent is EXPONENT.

EXPANSION[0] is BASE to the power of EXPONENT.

EXPANSION[0] = negParens(BASE)^{EXPONENT}

round(pow(BASE, EXPONENT))

\Large{negParens(BASE)^{EXPONENT} = {?}}

SOLUTION

= v