MHT CET · Maths · Definite Integration
If \([x]\) denotes the greatest integer function, then \(\int_0^5 x^2[x] \mathrm{d} x=\)
- A \(\frac{244}{3}\)
- B \(\frac{316}{3}\)
- C \(\frac{200}{3}\)
- D \(\frac{400}{3}\)
Answer & Solution
Correct Answer
(D) \(\frac{400}{3}\)
Step-by-step Solution
Detailed explanation
\(\int_0^5 x^2[x] \mathrm{d} x= \int_0^1 x^2[x] \mathrm{d} x+\int_1^2 x^2[x] \mathrm{d} x \) \( +\int_2^3 x^2[x] \mathrm{d} x+\int_3^4 x^2[x]+\int_4^5 x^2[x] \mathrm{d} x\)
\(=\int_0^1 x^2(0) \mathrm{d} x+\int_1^2 x^2(1) \mathrm{d} x +\int_2^3 x^2(2) \mathrm{d} x \) \( +\int_3^4 x^2(3) \mathrm{d} x+\int_4^5 x^2(4) \mathrm{d} x\)
\(=\left[\frac{x^3}{3}\right]_i^2+2\left[\frac{x^3}{3}\right]_2^3+3\left[\frac{x^3}{3}\right]_3^4+4\left[\frac{x^3}{3}\right]_4^5 \)
\( =\frac{1}{3}(8-1)+\frac{2}{3}(27-8)+(64-27)+\frac{4}{3}(125-64) \)
\( =\frac{400}{3}\)
\(=\int_0^1 x^2(0) \mathrm{d} x+\int_1^2 x^2(1) \mathrm{d} x +\int_2^3 x^2(2) \mathrm{d} x \) \( +\int_3^4 x^2(3) \mathrm{d} x+\int_4^5 x^2(4) \mathrm{d} x\)
\(=\left[\frac{x^3}{3}\right]_i^2+2\left[\frac{x^3}{3}\right]_2^3+3\left[\frac{x^3}{3}\right]_3^4+4\left[\frac{x^3}{3}\right]_4^5 \)
\( =\frac{1}{3}(8-1)+\frac{2}{3}(27-8)+(64-27)+\frac{4}{3}(125-64) \)
\( =\frac{400}{3}\)
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