MHT CET · Physics · Laws of Motion
A block of mass \(m\) is moving on a rough horizontal surface. The coefficient of kinetic friction between block and surface is \(\mu_{k}\), The net force exerted by the surface on the block is \(\quad(\mathrm{g}=\) acceleration due to gravity \()\)
- A \(\operatorname{mg}\left(1+\mu_{\mathrm{k}}\right)^{1 / 2}\)
- B \(\left[\mathrm{mg}\left(1+\mu_{\mathrm{k}}\right)\right]^{1 / 2}\)
- C \(\mathrm{mg}\left(1+\mu_{\mathrm{k}}^{2}\right)\)
- D \(\mathrm{mg}\left(1+\mu_{\mathrm{k}}^{2}\right)^{1 / 2}\)
Answer & Solution
Correct Answer
(D) \(\mathrm{mg}\left(1+\mu_{\mathrm{k}}^{2}\right)^{1 / 2}\)
Step-by-step Solution
Detailed explanation
Given that:
If body of mass \(m\) moving with rough horizontal surface Kinetic fiction = u
\(\begin{aligned} F_{\text {net }} &=\sqrt{f_{1}^{2}+f_{3}{ }^{2}} \\ &=\sqrt{\left(m g^{2}\right)^{2}+(l m g)^{2}} \end{aligned}\)
\(F=m g \sqrt{1+\mu^{2}}=\) option \(A\) is correct
If body of mass \(m\) moving with rough horizontal surface Kinetic fiction = u
\(\begin{aligned} F_{\text {net }} &=\sqrt{f_{1}^{2}+f_{3}{ }^{2}} \\ &=\sqrt{\left(m g^{2}\right)^{2}+(l m g)^{2}} \end{aligned}\)
\(F=m g \sqrt{1+\mu^{2}}=\) option \(A\) is correct
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