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A locomotive of mass m= 1.134 × 10 kg uses 37.8 kW of power to accelerate at a constant rate for 15.0 s. a) The locomotive has an initial velocity of 0.500 m/s east. Calculate the locomotive’s speed after 15.0 s. After 15.0 s, the locomotive travels east at a constant speed and then collides and couples with atrain of four cars. Each of the cars has half the mass of the locomotive. Before the collision, thetrain was travelling east at 1.60 m/s. Assume the train tracks have negligible friction. b) Calculate the final speed of the coupled train.c) Calculate the change in kinetic energy during the collision
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Shown below are two frictionless tracks with masses A and B getting ready to traverse the two tracks. Mass A is greater than Mass B. Both masses are released from rest and we will ignore air resistance. The distance between the start and finish lines is a height h. Which mass will have the smaller speed at the finish line? Start Finish
A 1500kg sport car is moving westbound at 20m/s on a level road when it collided with a 4000kg truck driving east on the same road at 15m/s. The two vehicles remain locked together after the collision.b) what is the total kinetic energy of the two vehicles just after collision
A 5.58 kg object falls freely (ignore air resistance), after being dropped from rest. Determine the initial kinetic energy (in J), the final kinetic energy (in J), and the change in kinetic energy (in J) for the following. (a) the first meter of the fall initial kinetic energy final kinetic energy change in kinetic energy (b) the second meter of the fall initial kinetic energy final kinetic energy change in kinetic energy J J J
Gorongosa ll: (2020... A lighter block (3 kg) and a heavier block (12 kg) sit on a frictionless surface. Both blocks are initially at rest. The same force of 6 N then pushes to the right on each block for a distance of 4 m. What are the initial kinetic energies of the blocks? K1i = K2i = Submit Answer Tries 0/2 What are the changes in kinetic energy of the blocks? AK1j = J %3D AK21 = J Submit Answer Tries 0/2 What are the final kinetic energies of the blocks? K1f = K2f = Submit Answer Tries 0/2 What are the initial momenta of the blocks? P1i = kg m/s P2i kg m/s Submit Answer Tries 0/2 What are the final momenta of the blocks? P1f = kg m/s %3D P2f = kg m/s Submit Answer Tries 0/2 What are the changes in momenta of the blocks? Ap1 Ap1 = kg m/s Ap2 = kg m/s %3D Submit Answer Tries 0/2 How long does it take each block to travel the distance of 4 m? y v
A 6.00 kg object falls freely (ignore air resistance), after being dropped from rest. Determine the initial kinetic energy (in J), the final kinetic energy (in J), and the change in kinetic energy (in J) for the following. (a) the first meter of the fall initial kinetic energy final kinetic energy change in kinetic energy (b) the second meter of the fall initial kinetic energy final kinetic energy change in kinetic energy
A sled starts at point A from rest at the top of the hill. The sled with people has a combined mass of 25 kg. Apply the law of conservation of energy to determine the gravitational potential energy, kinetic energy, mechanical energy, and speed of the sled at points A and C. Height at A = 20 m Height at C = 10 m Height at E = 0 m
On the roller-coaster shown, a car is moving 10 m/s toward the right at point 1. Assuming no friction, calculate the speed of the car at point 4. 3 40 m 26 m 15 m 29.37 m/s 22.71 m/s 20.89 m/s 26.17 m/s A. D. В. 25.07 m/s Е. С. 24.29 m/s F.
A table below lists the mass and speed of each of four objects. which two objects have the same kinetic energy? a- b and c b- a and c c- b and d d- a and d
Part A Compute the kinetic energy, in joules, of an automobile of mass 1650 kg traveling at a speed of 56.0 km/h. Submit Correct Part B Previous Answers By what factor does the kinetic energy change if the speed is doubled? Submit | ΑΣΦ Request Answer BMW ?
A penguin slides down an icy incline on his stomach, as shown in the diagram below. The coefficient of kinetic friction between the incline and the penguin's stomach is 0.15. The angle of the incline is 0 = 25 degrees. The total distance down the incline is 25 meters. The penguin gets a running start so his speed is 2.5 m/s when he begins to slide down the incline. What is the penguin's speed when he reaches the bottom of the incline? Hint: use Newton's 2nd law to calculate the acceleration of the penguin on the incline, then use kinematic equations to calculate the speed of the penguin when he reaches the bottom. 2.5 m/s 25 m 25°

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A		impulse
B		chemical potential energy
C		power
D		kinetic energy
E		force
F		velocity
G		work
H		acceleration
I		mass