(A) For the mass to remain stuck to the wall,the force of static friction $(f)$ must balance the gravitational force $(mg)$: $f = mg$.Since $f = \mu N

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(A) For the mass to remain stuck to the wall,the force of static friction $(f)$ must balance the gravitational force $(mg)$: $f = mg$.Since $f = \mu N$,where $N$ is the normal force,we have $\mu N = mg$.The normal force is provided by the centripetal force: $N = m\omega^2R$.Substituting $N$ into the friction equation: $\mu (m\omega^2R) = mg$.Solving for $\mu$: $\mu = \frac{g}{\omega^2R}$.Given $g = 10 \ m/s^2$,$\omega = 5 \ rad/s$,and $R = 4 \ m$:$\mu = \frac{10}{5^2 \times 4} = \frac{10}{25 \times 4} = \frac{10}{100} = 0.1$.

Class 11 Physics Newton's Laws of Motion and Friction Circular motion with Friction

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$A$ $0.5 \ kg$ mass is in contact against the inner wall of a cylindrical drum of radius $4 \ m$ rotating about its vertical axis. The minimum rotational speed of the drum to enable the mass to remain stuck to the wall (without falling) is $5 \ rad/s$. The coefficient of friction between the drum's inner wall surface and mass is . . . . . . . (Take $g = 10 \ m/s^2$)

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$0.1$
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$0.5$
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$0.7$
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$0.3$

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Newton's Laws of Motion and Friction

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Circular motion with Friction

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$A$ car of mass $m$ moves on a banked road having radius $r$ and banking angle $\theta$. To avoid slipping from the banked road,the maximum permissible speed of the car is $v_0$. The coefficient of friction $\mu$ between the wheels of the car and the banked road is:

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$A$ car is moving on a horizontal curved road with radius $50\,m$. The approximate maximum speed of the car will be $............\,ms^{-1}$,if the coefficient of friction between the tyres and the road is $0.34$. [Take $g = 10\,ms^{-2}$]

MediumJEE MAIN 2023

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$A$ particle moves on a circular overbridge with constant speed. The friction coefficient varies so that the speed remains constant. Which of the following graphs shows the magnitude of friction $f$ versus the angle $\theta$?

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For a body moving in a circular path,what is the condition for no skidding if $\mu$ is the coefficient of friction?

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$A$ small mass $m$ rests at the edge of a horizontal disc of radius $R$. The coefficient of static friction between the mass and the disc is $\mu$. The disc is rotated about its axis at an angular velocity such that the mass slides off the disc and lands on the floor $h$ meters below. What was its horizontal distance of travel from the point it left the disc?

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$A$ car of mass $m$ moves on a banked road having radius $r$ and banking angle $\theta$. To avoid slipping from the banked road,the maximum permissible speed of the car is $v_0$. The coefficient of friction $\mu$ between the wheels of the car and the banked road is:

$A$ car is moving on a horizontal curved road with radius $50\,m$. The approximate maximum speed of the car will be $............\,ms^{-1}$,if the coefficient of friction between the tyres and the road is $0.34$. [Take $g = 10\,ms^{-2}$]

$A$ particle moves on a circular overbridge with constant speed. The friction coefficient varies so that the speed remains constant. Which of the following graphs shows the magnitude of friction $f$ versus the angle $\theta$?

For a body moving in a circular path,what is the condition for no skidding if $\mu$ is the coefficient of friction?

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