A crash test dummy with a mass of 65 kg in a moving car going at...

1) A crash test dummy with a mass of 65-kg is in a moving car going...

1) A crash test dummy with a mass of 65-kg is in a moving car going at 20 m/s, until it crashes into a wall. If the applied force was measured at 1,750 N, how long (in seconds) did the collision last? 2) Consider two hockey pucks on frictionless ice: Puck A with a mass 1.10 kg, and Puck B with a mass of 0.60 kg. Puck A is initially moving to the right at 1.75 m/s towards puck B,...

In a crash test, a test car of mass 1000 kg is moving at a speed...

In a crash test, a test car of mass 1000 kg is moving at a speed of 37.9 m/s when it crashes into a wall. If the car comes to rest in 0.5 s, how much average power is expended in this process?

A set of crash tests consists of running a test car moving at a speed of...

A set of crash tests consists of running a test car moving at a speed of 12.2 m/s (26.8 m/h) into a solid wall. Strapped securely in an advanced seat belt system, a 67.0 kg (147.4 lbs) dummy is found to move a distance of 0.720 m from the moment the car touches the wall to the time the car is stopped. Calculate the size of the average force which acts on the dummy during that time. Using the direction...

In a crash test, a car of mass 1.43 103 kg collides with a wall and...

In a crash test, a car of mass 1.43 103 kg collides with a wall and rebounds as shown in the figure. The initial and final velocities of the car are vi = -15.5 m/s and vf = 2.81 m/s, respectively. If the collision lasts for 0.142 s, find the following. (a) the impulse delivered to the car due to the collision he size of and direction of the average force exerted on the car (Indicate the direction with the...

In a particular crash test, an automobile of mass 1542 kg collides with a wall and...

In a particular crash test, an automobile of mass 1542 kg collides with a wall and bounces back off the wall. The x components of the initial and final speeds of the automobile are 22 m/s and 1.7 m/s, respectively. 1) If the collision lasts for 0.1 s, find the magnitude of the impulse due to the collision. Answer in units of kg · m/s. 2) Calculate the magnitude of the average force exerted on the automobile during the collision....

A car having mass M1= 1000 Kg moving initially at V1i= 60 m/s collides with a...

A car having mass M1= 1000 Kg moving initially at V1i= 60 m/s collides with a car having mass M2= 3000 Kg that was moving initially at V2i = 20m/s. After the inelastic collision, the cars stick and move together. The final velocity of the two cars just after collision is Vf  =_______ m/s Part A 40 20 60 30 Part B If the collision time is t = 0.25 seconds, the force exerted on the car having mass M2= 3000...

1) A car with a mass of 2000 kg with an initial velocity of 10 m/s...

1) A car with a mass of 2000 kg with an initial velocity of 10 m/s crashes into a wall. The time variation (Delta t) is 0.015 seconds. What is the change in momentum? What is the car's impulse and force? What if the car crashes into a haystack with a time variation (Delta t) of 0.15 seconds. What would then be its change in momentum, impulse and force. How about its final velocity? 2) A swing made of a...

A 2.50 kg mass moving 7.50 m/s to the right collides head on with a 4.90...

A 2.50 kg mass moving 7.50 m/s to the right collides head on with a 4.90 kg mass. After the collision the 2.50 kg mass is moving 5.00 m/s to the left and the 4.90 kg mass is moving 4.88 m/s to the right. a. Calculate the velocity of the 4.90 kg mass before the collision b. If the collision lasts for 0.0625 seconds calculate the force that acted on each mass during the collision.

1500-kg car moving at 16.00 m/s suddenly collides with a stationary car of mass 1000 kg....

1500-kg car moving at 16.00 m/s suddenly collides with a stationary car of mass 1000 kg. Time of collision is .02 secs e. What is the average force acting on the stationary car by the moving car during the collision? f. What is the total kinetic energy before the collision? g. What is the total kinetic energy after the collision? h. What is change in momentum? i. What happens to the lost kinetic energy? Explain clearly j. Is this an...

A 1000 kg car, traveling to the right at 65 mph, collides with a brick wall...

A 1000 kg car, traveling to the right at 65 mph, collides with a brick wall and comes to rest in 0.22 seconds. What is the magnitude of the average force the car exerts on the wall? Round your answer to the nearest integer.​ A 0.4 kg softball is pitched to you at 20 m/s. You hit the ball back along the same path, and at the same speed. If the bat was in contact with the ball for 0.27...