A) go on decreasing with time
B) be independent of\[\alpha \]and\[\beta \]
C) drop to zero when\[\alpha =\beta \]
D) go on increasing with time
Correct Answer: D
Solution :
Given, \[a=a{{e}^{-\alpha t}}+b{{e}^{\beta t}}\] So, velocity \[v=\frac{dx}{dt}\] \[=-a\alpha {{e}^{-\alpha t}}+b\beta {{e}^{\beta t}}\] \[=A+B\] Where \[A=-a\alpha {{e}^{-\alpha t}},B=b\beta {{e}^{\beta t}}\] The value of term\[A=-a\alpha {{e}^{-\alpha t}}\]decreases and of term\[B=b\beta {{e}^{\beta t}}\]increases with increase in time. As a result, velocity goes on increasing with time.You need to login to perform this action.
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