Part 1
Figure shows (x,t) (y,t) diagram of a particle mTwo blocks A and B of masses 2.9kg and 1.9kg respectively are suspended with the help of two inextensible wires each of the length 1m from a rigid support as shown in the figure. The mass of the upper wire is negligible and that of the lower wire 0.2kg/m. This system of block, wires and rigid support is moving upwards with an acceleration of 0.2m/s2. The tension at the midpoint C and D of the lower and the upper wires will be respective in 2 dimensions. If the particle has a mass of 500 g, the force acting on the particle is-duplicate-5
11
Sep
Figure shows (x,t) (y,t) diagram of a particle mTwo blocks A and B of masses 2.9kg and 1.9kg respectively are suspended with the help of two inextensible wires each of the length 1m from a rigid support as shown in the figure. The mass of the upper wire is negligible and that of the lower [...]
A 140 g ball, in horizontal flight with a speed v1 of 39.0 m/s. is struck by a bat. After leaving the bat, the ball travel in the opposite direction with speed v2=39.0 m/s. If the impact time Δt for the ball-bat collision is 1.20 ms, what average net force acts on the ball
11
Sep
A 140 g ball, in horizontal flight with a speed v1 of 39.0 m/s. is struck by a bat. After leaving the bat, the ball travel in the opposite direction with speed v2=39.0 m/s. If the impact time Δt for the ball-bat collision is 1.20 ms, what average net force acts on the ball A [...]
An object of mass 10 kg moves at a constant speed of 10m/s. A constant force that acts for 4 sec on the object gives it a speed of 2m/s in opposite direction. The force acting on the object is:
11
Sep
An object of mass 10 kg moves at a constant speed of 10m/s. A constant force that acts for 4 sec on the object gives it a speed of 2m/s in opposite direction. The force acting on the object is: An object of mass 10 kg moves at a constant speed of 10m/s. A constant [...]
A force gives an object of m1 an acceleration of 12 metre per second square and an object of mass m2 an acceleration of 3 metre per second square. the ratio of acceleration if the force give object of mass m2 – m1 and m2 + m1 is
11
Sep
A force gives an object of m1 an acceleration of 12 metre per second square and an object of mass m2 an acceleration of 3 metre per second square. the ratio of acceleration if the force give object of mass m2 – m1 and m2 + m1 is A body of mass 50 kg is [...]
Figure shows (x,t) (y,t) diagram of a particle moving in 2 dimensions. If the particle has a mass of 500 g, the force acting on the particle is
11
Sep
Figure shows (x,t) (y,t) diagram of a particle moving in 2 dimensions. If the particle has a mass of 500 g, the force acting on the particle is Figure shows (x t) (y t) diagram of a particle moving in 2 dimensions. If the particle has a mass of 500 g the force acting on [...]
A block of mass 2 kg is placed on the floor. The coefficient of static friction is μs=0.54. If a force of 2.8 N is applied on the block parallel to the floor, the force of friction between the block and floor (taking g=10m/sec2)
11
Sep
A block of mass 2 kg is placed on the floor. The coefficient of static friction is μs=0.54. If a force of 2.8 N is applied on the block parallel to the floor, the force of friction between the block and floor (taking g=10m/sec2) A block of mass 2 kg is placed on the floor. [...]
The rear side of a truck is open and a box of 40kg mass is placed 5m away from the open end as shown in the figure. The coefficient of friction between the box and the surface below it is 0.15. On a straight road, the truck starts from rest and accelerates with 2ms−2. Find the distance (in m) traveled by truck by the time box falls from the truck. (Ignore the size of the box)
11
Sep
The rear side of a truck is open and a box of 40kg mass is placed 5m away from the open end as shown in the figure. The coefficient of friction between the box and the surface below it is 0.15. On a straight road, the truck starts from rest and accelerates with 2ms−2. Find [...]
A block of mass 200 kg is being pulled up by men on an inclined plane at angle of 45 degree the coefficient of static friction is 0.5 each man can only apply maximum force of 500N. Calculate the number of men required fir the block to just start moving up the plane
11
Sep
A block of mass 200 kg is being pulled up by men on an inclined plane at angle of 45 degree the coefficient of static friction is 0.5 each man can only apply maximum force of 500N. Calculate the number of men required fir the block to just start moving up the plane 2 N [...]
Block A of mass 2 kg is placed over a block B of mass 8 kg. The combination is placed on a rough horizontal surface. If g = 10 ms^−2, coefficient of friction between B and floor = 0.5, coefficient of friction between A and B = 0.4 and a horizontal force of 10 N is applied on block B, then the force of friction between A and B is
11
Sep
Block A of mass 2 kg is placed over a block B of mass 8 kg. The combination is placed on a rough horizontal surface. If g = 10 ms^−2, coefficient of friction between B and floor = 0.5, coefficient of friction between A and B = 0.4 and a horizontal force of 10 N [...]
Tags:
Block A of mass 2 kg is placed over a block B of mass 8 kg. The combination is placed on a rough horizontal surface. If g = 10 ms^−2 ,
coefficient of friction between A and B = 0.4 and a horizontal force of 10 N is applied on block B ,
coefficient of friction between B and floor = 0.5 ,
then the force of friction between A and B is ,
A cubical block rests on an inclined plane of μ = 1/√3, What should be the angle of inclination so that the block just slides down the inclined plane?
11
Sep
A cubical block rests on an inclined plane of μ = 1/√3, What should be the angle of inclination so that the block just slides down the inclined plane? A cubical block rests on an inclined plane of μ = 1/√3 What should be the angle of inclination so that the block just slides down [...]