There is object-1 of mass m1=2.84kg moving on +x axis with the velocity of v1=9.62m/s. Object-1...

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1...

There is an object-1 of mass m1=1.84kg moving on +x-axis with the velocity of v1=7.62m/s. Object-1 is explode into two segments of masses m2=0.74 kg and m3=1.10kg. Mass m2 moves in +28 degrees direction on xy plane with the velocity of 1.57m/s. a) Find the x and y-components of velocity of mass m3 after collision? [Hint: you can assume the direction of m3 in any direction on xy plane with velocity components] b) Find the velocity component of x-direction of...

Consider object-1 of mass m1=652gram moving on the +X axis with the velocity of v1=13.5 m/s....

Consider object-1 of mass m1=652gram moving on the +X axis with the velocity of v1=13.5 m/s. Object-1 collide with stationary object-2 of mass m2=846gram on the X-axis. After collision, both objects are moving X-axis. a) Consider the collision is inelastic, and two objects combined into one object after the collision. Find the velocity of the combined object after collision? Consider the collision remains about 1.82ms. find the impulse acts on object-1 during the collision . Find the energy lost due...

A particle m1 = 0.500 kg moving with a velocity of v1 = (3.60 m/s, 25.0°)...

A particle m1 = 0.500 kg moving with a velocity of v1 = (3.60 m/s, 25.0°) collides and sticks with another particle m2 = 1.50 kg moving with a velocity of v2 = (2.00 m/s, 180.0°). Find the final velocity of the system after the collision. Find the ij vector and the magnitude and direction using the vector components method. Then use the graphical method to scale to find the magnitude and direction. The two methods should compare within a...

An object of mass m1 approaches with velocity v1 another object of mass m2, which is...

An object of mass m1 approaches with velocity v1 another object of mass m2, which is at rest, next to a spring having force constant k. The spring is fixed to a wall and m2 can compress the spring. This is one-dim horizontal collision without friction. We consider two collision scenarios, one which is perfectly inelastic, and the other which is elastic. (a) In the first collision case the object m1 strikes m2 and sticks. Moving together, they compress the...

A block of mass m1 = 1.20 kg moving at v1 = 1.20 m/s undergoes a...

A block of mass m1 = 1.20 kg moving at v1 = 1.20 m/s undergoes a completely inelastic collision with a stationary block of mass m2 = 0.500 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.60 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3. Assume that the blocks slide without...

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s...

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s has a completely inelastic collision with a second particle of mass m2 = 3.68 kg with an initial velocity v2 = 3.06 m/s. What is the velocity of the combined particles immediately after the collision? (Express your answer in vector form.)

Consider m1=782 grams cart is moving on horizontal surface (+x axis) with an speed of 13.5...

Consider m1=782 grams cart is moving on horizontal surface (+x axis) with an speed of 13.5 m/s. An object with m2=0.250 kg is suddenly dropped (initially moving on -y axis) into the moving cart and combined (cart + object) moving as a single object with different velocity after collision. There is no ay external force or mass lose during the collision. a) Calculate the speed cart+object system (after collision)? b) Calculate total energy lost during the collision? c) Find the...

1) Consider an object of mass m1 = 0.425 kg moving with a uniform speed of...

1) Consider an object of mass m1 = 0.425 kg moving with a uniform speed of 6.65 m/s on a frictionless surface. This object makes an elastic head-on collision with another object of mass m2 = 0.555 kg  which is initially at rest. (a) Find the speed of m1 immediately after collision. (b) Find the speed of m2 immediately after collision. 2) An object of mass m1 = 0.395 kg  starts from rest at point  and slides down an incline surface that makes...

An object of mass m1=5kg is moving with a speed of vli-12m/s and collides with another...

An object of mass m1=5kg is moving with a speed of vli-12m/s and collides with another object at rest, that has a mass m2=7kg. After the clastie collision these two objects move with different speeds. What is the speed of m1 and m2 after the collision?

The figure below shows a mass m1=5.2 kg moving with velocity v1=47.6 m/s which collides with...

The figure below shows a mass m1=5.2 kg moving with velocity v1=47.6 m/s which collides with a mass m2=3.8 kg which is initially at rest. The collision is completely inelastic and the masses slide up a frictionless hill of mass of height h=11.1 m. What is the kinetic energy K of the masses when they reach the top of the hill. K=727 J K=3879 J K=2425 J K=2061 J K=1576 J