A block of mass m
Two blocks (m and M) are arranged as in figure. There is friction between ground and M only and other surfaces are frictionless. The coefficient of friction between ground and M is u = 0.25. The maximum ratio of m and M (m/M) so that the system remains is at rest –
20
Oct
Two blocks (m and M) are arranged as in figure. There is friction between ground and M only and other surfaces are frictionless. The coefficient of friction between ground and M is u = 0.25. The maximum ratio of m and M (m/M) so that the system remains is at rest – A block of [...]
A uniform chain is placed at rest on a rough surface of base length 1 and height h on an irregular surface as shown in figure Then the minimum coefficient of friction between the chain and the surface must be equal to
20
Oct
A uniform chain is placed at rest on a rough surface of base length 1 and height h on an irregular surface as shown in figure Then the minimum coefficient of friction between the chain and the surface must be equal to A block of mass m if coefficient of friction between the block and [...]
For the situation shown in Fig the block is stationary w.r.t. inclined fixed in an elevator the elevator is having an acceleration of 5–√a0 whose components are shown in the figure the surface is rough and coefficient of static friction between the inclined and block is μ Determine the magnitude of force exerted by inclined on the block (Takea0=g/2 and θ=37∘,μs=0.2)
20
Oct
For the situation shown in Fig the block is stationary w.r.t. inclined fixed in an elevator the elevator is having an acceleration of 5–√a0 whose components are shown in the figure the surface is rough and coefficient of static friction between the inclined and block is μ Determine the magnitude of force exerted by inclined [...]
A coin is placed at the edge of a horizontal disc rotating about a vertical axis through its axis through speed 2rads^−1. The radius of the disc is 50 cm. Find the minimum coefficient of friction between disc and coin so that the coin does not slip (g = 10ms^−2 ).
20
Oct
A coin is placed at the edge of a horizontal disc rotating about a vertical axis through its axis through speed 2rads^−1. The radius of the disc is 50 cm. Find the minimum coefficient of friction between disc and coin so that the coin does not slip (g = 10ms^−2 ). A block of mass [...]
A circular table of radius 0.5 m has a smooth diametrical groove. A ball of mass 90 g is placed inside the groove along with a spring of spring constant 10^2 Ncm^−1. One end of the spring is tied to the edge of the table and the other end to the ball. The ball is at a distance of 0.1 m from the center when the table is at rest. On rotating the table with a constant angular frequency of 10^2 rads^−1, the ball moves away from the center by a distance nearly equal to
20
Oct
A circular table of radius 0.5 m has a smooth diametrical groove. A ball of mass 90 g is placed inside the groove along with a spring of spring constant 10^2 Ncm^−1. One end of the spring is tied to the edge of the table and the other end to the ball. The ball is [...]
A block of mass m is lying on a wedge having inclination angle α=tan^−1(1/5) wedge is moving with a constant acceleration a=2ms^−2 The minimum value of coefficient of friction μ so that m remain stationary w.r.t. wedge is
20
Oct
A block of mass m is lying on a wedge having inclination angle α=tan^−1(1/5) wedge is moving with a constant acceleration a=2ms^−2 The minimum value of coefficient of friction μ so that m remain stationary w.r.t. wedge is A block of mass m if coefficient of friction between the block and the surface is inclined [...]
A solid block of mass 2kg is resting inside a cube shown in figure The cube is moving with a velocity vˆ=5iˆ+2jˆms^−1 If the coefficient of friction between the surface of cube and block is 0.2 then the force of friction between the block and cube is
20
Oct
A solid block of mass 2kg is resting inside a cube shown in figure The cube is moving with a velocity vˆ=5iˆ+2jˆms^−1 If the coefficient of friction between the surface of cube and block is 0.2 then the force of friction between the block and cube is A block of mass m if coefficient of [...]
A block of mass m, lying on a rough horizontal plane is acted upon by a horizontal force P and another force Q, inclined at an angle θ to the vertical. The block will remain in equilibrium, if coefficient of friction between the block and the surface is
20
Oct
A block of mass m, lying on a rough horizontal plane is acted upon by a horizontal force P and another force Q, inclined at an angle θ to the vertical. The block will remain in equilibrium, if coefficient of friction between the block and the surface is A block of mass m if coefficient [...]
A block of mass m, lying on a horizontal plane, is acted upon by a horizontal force P and another force Q, inclined at an angle theta to the vertical. The block will remain in equilibrium if the coefficient
01
Oct
A block of mass m, lying on a horizontal plane, is acted upon by a horizontal force P and another force Q, inclined at an angle theta to the vertical. The block will remain in equilibrium if the coefficient A block of mass m inclined at an angle theta to the vertical. The block will [...]