A woman is 1.6 m tall and has a mass of 55 kg. She moves past...

A woman is 1.6 m tall and has a mass of 55 kg. She moves past...

A woman is 1.6 m tall and has a mass of 55 kg. She moves past an observer with the direction of the motion parallel to her height. The observer measures her relativistic momentum to have a magnitude of 2.7 × 1010 kg·m/s. What does the observer measure for her height?

A woman is 1.7 m tall and has a mass of 50 kg. She moves past...

A woman is 1.7 m tall and has a mass of 50 kg. She moves past an observer with the direction of the motion parallel to her height. The observer measures her relativistic momentum to have a magnitude of 2.6 × 1010 kg·m/s. What does the observer measure for her height?

Starting from rest, two skaters "push off" against each other on smooth level ice, where friction...

Starting from rest, two skaters "push off" against each other on smooth level ice, where friction is negligible. One is a woman and one is a man. The woman moves away with a velocity of +1.6 m/s relative to the ice. The mass of the woman is 59 kg, and the mass of the man is 88 kg. Assuming that the speed of light is 2.0 m/s, so that the relativistic momentum must be used, find the recoil velocity of...

Starting from rest, two skaters "push off" against each other on smooth level ice, where friction...

Starting from rest, two skaters "push off" against each other on smooth level ice, where friction is negligible. One is a woman and one is a man. The woman moves away with a velocity of +1.6 m/s relative to the ice. The mass of the woman is 59 kg, and the mass of the man is 88 kg. Assuming that the speed of light is 2.0 m/s, so that the relativistic momentum must be used, find the recoil velocity of...

A puck with a mass of 1.2 kg moves with a velocity of 5 m/s in...

A puck with a mass of 1.2 kg moves with a velocity of 5 m/s in the x-direction. It collides with a 1.6 kg puck which is initally stationary. After the collision, the second puck moves at a velocity of 1.44 m/s at an angle of 33 degrees below the x axis. A) What is the angle of the first puck after the collision? B)What is the velocity of the first puck after the collision?

A child pushes her friend (m = 25 kg) located at a radius r = 1.5...

A child pushes her friend (m = 25 kg) located at a radius r = 1.5 m on a merry-go-round (rmgr = 2.0 m, Imgr = 1000 kg*m2) with a constant force F = 90 N applied tangentially to the edge of the merry-go-round (i.e., the force is perpendicular to the radius). The merry-go-round resists spinning with a frictional force of f = 10 N acting at a radius of 1 m and a frictional torque τ = 15 N*m...

A rifle of mass 2.0 kg fires a bullet of mass 0.005 kg. The bullet moves...

A rifle of mass 2.0 kg fires a bullet of mass 0.005 kg. The bullet moves with a velocity of 400 m/s after firing. (a) What is the system? (b) What is the momentum of the bullet before and after firing? (c) What is the recoil velocity of the rifle after firing? (d) What is the impulse given to the bullet due to firing?

Zoe, a 55 kg gymnast is performing a vault. Her center of mass (COM) is 1.0...

Zoe, a 55 kg gymnast is performing a vault. Her center of mass (COM) is 1.0 m above the ground as she runs toward the vault apparatus. The instant she before she jumps into the air, her running velocity is 5 m/s. Her mechanical energies due to her approach velocity and due to her COM position during the approach are completely converted to her total mechanical energy while she is in the air. (a) What is the peak height of...

An alpha particle is a helium nucleus with a mass of 6.68×10−27 kg. Suppose an alpha...

An alpha particle is a helium nucleus with a mass of 6.68×10−27 kg. Suppose an alpha particle moves with a speed of 0.653c. a. Find the magnitude of its momentum. b. What is the total energy of the particle? c. What is its rest energy? d. What is its relativistic kinetic energy? 2. Laboratory experimenters measure the lifetime of a neutron at rest to be 1.80 s. They then measure its lifetime to be 5.13 s when it was moving....

An airplane of mass 1.6 ? 104 kg is moving at 62 m/s. The pilot then...

An airplane of mass 1.6 ? 104 kg is moving at 62 m/s. The pilot then revs up the engine so that the forward thrust by the air around the propeller becomes 7.4 ? 104 N. If the force exerted by air resistance on the body of the airplane has a magnitude of 6.0 ? 104 N, find the speed of the airplane after it has traveled 500 m. Assume that the airplane is in level flight throughout this motion....