1. Compare the work required to accelerate a car of mass m from v to twice...

Two cars, both of mass m, collide and stick together. Prior to the collision, one car...

Two cars, both of mass m, collide and stick together. Prior to the collision, one car had been traveling north at speed 3v, while the second was traveling at speed 2v at an angle ? south of east (as indicated in the figure). After the collision, the two-car system travels at speed vfinal at an angle ? east of north. (Figure 1) Find the speed vfinal of the joined cars after the collision. Express your answer in terms of v...

Please show work for both questions: 1) Find the net external force required to accelerate a...

Please show work for both questions: 1) Find the net external force required to accelerate a 1,395kg car from rest to 32m/s in 7.9 seconds? Answer in SI units 2) Find the magnitude of the braking force required to bring a 1,326kg car moving at speed of 30 m/s to a complete stop in a distance of 154m? Answer in SI units

The center of mass of a car of mass M is located midway between the front-...

The center of mass of a car of mass M is located midway between the front- and rear wheels, at a distance h from the ground. The distance between the front and the rear wheels is d. a) The car is moving forward on a horizontal surface with a constant acceleration A. In a system that is accelerating with the car, what can be said about the horizontal forces that is acting on the car? b) What is the ratio...

1. Starting from rest, it took you 12 seconds to accelerate your car to 24 m/s...

1. Starting from rest, it took you 12 seconds to accelerate your car to 24 m/s at a constant acceleration. Find your acceleration. 2.A prototype car starts from rest and accelerates at a constant rate to 60 m/s in 5.1 seconds. How much distance did the car travel during the 5.1-second accelerated motion? 3. A speeding driver noticed a police car parked about 443 m in from of him on the side of the road and reduced his speed at...

a car accelerates uniformly from rest to 24.1 m/s in 9 s along a level stretch...

a car accelerates uniformly from rest to 24.1 m/s in 9 s along a level stretch of road. Ignoring friction , determine the average power required to accelerate the car if the mass of the car is 1,131 kg

    starting from rest, a car acceleration at a rate of 4 m/s2for 3 seconds. The car...

    starting from rest, a car acceleration at a rate of 4 m/s2for 3 seconds. The car then travels at a constant speed for 5 seconds. What is the total distance moved by the car?    what is the angle between the two vectors from the line 1 column 49 to line 1 column 73. Unexpected ‘<mstyle and from line 1 column 56 to line 1 column 95. Unexpected ‘<mi; ? The velocity of a particle as a function time along the...

1. Imagine tossing a ball of mass "m" into the air and watching it fall down....

1. Imagine tossing a ball of mass "m" into the air and watching it fall down. What are the magnitude and direction of the velocity and acceleration while the ball is in the air: a) on the way up? b) at the top? and c) on the way down (but not yet hitting the ground)? Please ignore the issue of air friction in this essay. (You can draw if you want to!)(Answer this question conceptually) 2. A jogger accelerates from...

A piston (with mass M = 2.0 kg) in a car engine is in vertical simple...

A piston (with mass M = 2.0 kg) in a car engine is in vertical simple harmonic motion with amplitude A = 5.0 cm. If the engine is running at 3556 rev/min, (a) What is the maximum velocity (m/s) of the piston? (b) What is the maximum acceleration (m/s2) of the piston? Suppose a small 100 g piece of metal were to break loose from the surface of the piston when it (the piston) is at the lowest point (z...

Acceleration from acceleration, time graph: 0.686 m/s2 Acceleration from velocity, time graph: 0.686 m/s2 Let’s see...

Acceleration from acceleration, time graph: 0.686 m/s2 Acceleration from velocity, time graph: 0.686 m/s2 Let’s see what your results would predict for g. Determine this value using the average of your two acceleration values. 1. Predicted maximum acceleration, aavg/sin(θ) = ___________m/s2 Compare this result to the value assumed in the lab, 9.80 m/s2 by finding the percentage error. 2. Percentage error____________ % **Please show all work, it is for a lab**

1. A negative charge, -q, has a mass, m, and an initial velocity, v, but is...

1. A negative charge, -q, has a mass, m, and an initial velocity, v, but is infinitely far away from a fixed large positive charge of +Q and radius R such that if the negative charge continued at constant velocity it would miss the center of the fixed charge by perpendicular amount b. But because of the Coulomb attraction between the two charges the incoming negative charge is deviated from its straight line course and attracted to the fixed charge...