If motion of a particle is represented by s=et+4t−cost, then the acceleration of the particle at any time t is [Hint: Acceleration of the particle is d2sdt2]
A
et−4tln4+cost
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B
et+4t(ln4)2+cost
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C
et+4t(ln4)2−cost
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D
et+4tln4+cost
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Solution
The correct option is Bet+4t(ln4)2+cost As we know that the acceleration of the particle at any time t is given by d2sdt2⇒d(dsdt)dt Given, S=et+4t−cost So, we have dsdt=d(et+4t−cost)dt ⇒detdt+d4tdt−dcostdt=et+4tln4+sint Thus, d2sdt2=d(et+4tln4+sint)dt ⇒detdt+ln4d4tdt+dsintdt=et+4t(ln4)2+cost