Question:
A point particle of mass $m$, moves along the uniformly rough track $PQR$ as shown in the figure. The coefficient of friction, between the particle and the rough track equals $\mu$. The particle is released, from rest, from the point $P$ and it comes to rest at a point $R$. The energies, lost by the ball, over the parts, $PQ$ and $QR$, of the track, are equal to each other, and no energy is lost when particle changes direction from $PQ$ to $QR$.
The values of the coefficient of friction $\mu$ and the distance $x(=QR)$, are, respectively close to :
A point particle of mass $m$, moves along the uniformly rough track $PQR$ as shown in the figure. The coefficient of friction, between the particle and the rough track equals $\mu$. The particle is released, from rest, from the point $P$ and it comes to rest at a point $R$. The energies, lost by the ball, over the parts, $PQ$ and $QR$, of the track, are equal to each other, and no energy is lost when particle changes direction from $PQ$ to $QR$.
The values of the coefficient of friction $\mu$ and the distance $x(=QR)$, are, respectively close to :
Updated On: Oct 10, 2024
- 0.2 and 6.5 m
- 0.2 and 3.5 m
- 0.29 and 3.5 m
- 0.29 and 6.5 m
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The Correct Option is C
Solution and Explanation
From work energy theorem and given condition
$m g h-2 \,\mu m g \,\cos\, \theta \frac{h}{\sin \theta}=0$
$\therefore \mu=\frac{1}{2 \cot 30}=\frac{1}{2 \sqrt{3}}=0.29$
again $\frac{m g h}{2}=\mu \,m g \,. Q R$
$\therefore Q R=\frac{h}{2 \mu}=\frac{2}{2 \times 0.29}=3.5 \,m$
$m g h-2 \,\mu m g \,\cos\, \theta \frac{h}{\sin \theta}=0$
$\therefore \mu=\frac{1}{2 \cot 30}=\frac{1}{2 \sqrt{3}}=0.29$
again $\frac{m g h}{2}=\mu \,m g \,. Q R$
$\therefore Q R=\frac{h}{2 \mu}=\frac{2}{2 \times 0.29}=3.5 \,m$
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Concepts Used:
Work, Energy and Power
Work:
- Work is correlated to force and the displacement over which it acts. When an object is replaced parallel to the force's line of action, it is thought to be doing work. It is a force-driven action that includes movement in the force's direction.
- The work done by the force is described to be the product of the elements of the force in the direction of the displacement and the magnitude of this displacement.
Energy:
- A body's energy is its potential to do tasks. Anything that has the capability to work is said to have energy. The unit of energy is the same as the unit of work, i.e., the Joule.
- There are two types of mechanical energy such as; Kinetic and potential energy.
Read More: Work and Energy
Power:
- Power is the rate at which energy is transferred, conveyed, or converted or the rate of doing work. Technologically, it is the amount of work done per unit of time. The SI unit of power is Watt (W) which is joules per second (J/s). Sometimes the power of motor vehicles and other machines is demonstrated in terms of Horsepower (hp), which is roughly equal to 745.7 watts.
- Power is a scalar quantity, which gives us a quantity or amount of energy consumed per unit of time but with no manifestation of direction.