If f(x) = _a^x t^3 e^t ,dt ,, then d dx ,f(x) =

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MCQ

If $f(x) = \int_a^x {{t^3}{e^t}\,dt\,,} $ then $\frac{d}{{dx}}\,f(x) = $

A
${e^x}({x^3} + 3{x^2})$
✓
${x^3}{e^x}$
C
${a^3}{e^a}$
D
None of these

✓

Answer

Correct option: B.

${x^3}{e^x}$

b
(b) $f(x) = \int_a^x {{t^3}{e^t}dt = \int_a^0 {{t^3}.{e^t}dt + \int_0^x {{t^3}{e^t}\,\,dt} } } $

$ \Rightarrow \frac{{df(x)}}{{dx}} = \frac{d}{{dx}}\left( {\int_a^0 {{t^3}.{e^t}dt} } \right) + \frac{d}{{dx}}\left( {\int_0^x {{t^3}.{e^t}\,dt} } \right) = {x^3}{e^x}$.

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