messages listlengths 1 1 | ground_truth stringlengths 0 159 | dataset stringclasses 1 value | constraint_type stringclasses 0 values | constraint stringclasses 0 values |
|---|---|---|---|---|
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 2x-8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 1110_4 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 408 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 1293 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1}{3} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 25 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 15 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 20 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 70 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \text{(C)} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 432 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 576 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -\frac{11}{2} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 100^\circ | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -\frac{3}{2} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 22.21 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{7}{11} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 0 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 16 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 5 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 40 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1}{16} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1}{7}\triangle ABC | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 18 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -27 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 21 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 2 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 486 \sqrt{3} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1}{2} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \text{(A)} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \left( \frac{1}{4}, \frac{1}{8}, \frac{5}{64} \right) | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \text{even} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 17 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 2 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -1 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 27 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 4 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 12 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 40 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 60^\circ | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 1,\!000,\!000 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \dfrac{40}{81} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 10 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 41 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1}{7} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 25 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 145 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 499477 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 21 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1 + \sqrt{5}}{2} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \$ 5 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{7}{33} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 1 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8.8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \text{B} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 383 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -45 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 32 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 252 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 4\sqrt{3} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 6 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | (0,-5) | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 12 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -4 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 57 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 9 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 112 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \text{Sunday} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 999 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 8 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{7}{12} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 17 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \begin{pmatrix} -1 & -5 \\ 1 & 4 \end{pmatrix} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 79 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 6 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 26 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 7 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 90 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{1033}{4}+30\sqrt{3} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 120 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 6960 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{289\pi}{4} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 5 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | [2,\infty) | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 3-i | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | \frac{9}{10} | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 18 | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | -\frac{1}{5} - \frac{2}{5}i | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | 36 - 12\sqrt{3} - 4\pi | MATH | null | null |
[
{
"content": "Question: Find the domain of the expression $\\frac{\\sqrt{x-2}}{\\sqrt{5-x}}$.}\nAnswer:The expressions inside each square root must be non-negative.\nTherefore, $x-2 \\ge 0$, so $x\\ge2$, and $5 - x \\ge 0$, so $x \\le 5$.\nAlso, the denominator cannot be equal to zero, so $5-x>0$, which gives $... | (3,-2,2) | MATH | null | null |
End of preview. Expand
in Data Studio
README.md exists but content is empty.
- Downloads last month
- 8