MHT CET · Physics · Laws of Motion
A block of mass 'M' is moving on rough horizontal surface with momentum 'P'. The coefficient of friction between the block and surface is ' \(\mu\) '. The distance covered by block before it stops is \([\mathrm{g}=\) acceleration due to gravity \(]\)
- A \(\frac{2 \mu \mathrm{Mg}}{\mathrm{P}}\)
- B \(\frac{\mathrm{P}}{2 \mu \mathrm{Mg}}\)
- C \(\frac{\mathrm{P}^{2}}{2 \mu \mathrm{M}^{2} \mathrm{~g}}\)
- D \(\frac{2 \mu \mathrm{M}^{2} \mathrm{~g}}{\mathrm{P}^{2}}\)
Answer & Solution
Correct Answer
(C) \(\frac{\mathrm{P}^{2}}{2 \mu \mathrm{M}^{2} \mathrm{~g}}\)
Step-by-step Solution
Detailed explanation
Using kinematic relation,
\(v^{2}=u^{2}-2 a s\)
The momentum pis given by
\(\begin{array}{l}
p=M u \\
u=\frac{P}{M}
\end{array}\)
and acceleration is given as
\(a=\mu g\)
Substituting values in Eq. (i), we get
\(\begin{array}{l}
0=\mathrm{u} 2-2 \mathrm{as}(\because f \in \text { alvelocity }, v=0) \\
0=\left(\frac{\mathrm{p}}{\mathrm{M}}\right)^{2}-2 \mu \mathrm{gs} \\
\left(\frac{\mathrm{p}}{\mathrm{M}}\right)^{2}=2 \mu \mathrm{gs} \\
\Rightarrow \mathrm{s}=\frac{\mathrm{p}^{2}}{2 \mathrm{M}^{2} \mu \mathrm{g}}
\end{array}\)
\(v^{2}=u^{2}-2 a s\)
The momentum pis given by
\(\begin{array}{l}
p=M u \\
u=\frac{P}{M}
\end{array}\)
and acceleration is given as
\(a=\mu g\)
Substituting values in Eq. (i), we get
\(\begin{array}{l}
0=\mathrm{u} 2-2 \mathrm{as}(\because f \in \text { alvelocity }, v=0) \\
0=\left(\frac{\mathrm{p}}{\mathrm{M}}\right)^{2}-2 \mu \mathrm{gs} \\
\left(\frac{\mathrm{p}}{\mathrm{M}}\right)^{2}=2 \mu \mathrm{gs} \\
\Rightarrow \mathrm{s}=\frac{\mathrm{p}^{2}}{2 \mathrm{M}^{2} \mu \mathrm{g}}
\end{array}\)
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