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Problem 3 The 100 kg ball is suspended as shown. If the ball has a speed...
A 23.0 kg cannon ball is fired from a cannon with a muzzle speed of 1100...
A 23.0 kg cannon ball is fired from a cannon with a muzzle speed of 1100 m/s at an angle of 32.0° with the horizontal. A second ball is fired at an angle of 90.0°. a.) Use the conservation of energy principle to find the maximum height reached by each ball b.) What is the total mechanical energy at the maximum height for each ball? Let y = 0 at the cannon
5. Ball 1 has a mass of 2.0 kg and is suspended with a 3.0 m...
5. Ball 1 has a mass of 2.0 kg and is suspended with a 3.0 m rope from a post so that the ball is stationary. Ball 2 has a mass of 4.0 kg and is tied to another rope. The second rope also measures 3.0 m but is held at a 60.0° angle, as shown in Figure 7. When ball 2 is released, it collides, head-on, with ball I in an elastic collision. (a) Calculate the speed of each...
A truck with a mass of 1710 kg and moving with a speed of 14.0 m/s...
A truck with a mass of 1710 kg and moving with a speed of 14.0 m/s rear-ends a 613 kg car stopped at an intersection. The collision is approximately elastic since the car is in neutral, the brakes are off, the metal bumpers line up well and do not get damaged. Find the speed of both vehicles after the collision in meters per second. m/s truck m/s car As shown in the figure below, object m, = 1.50 kg starts...
A pendulum consists of a 5.1 kg ball suspended by a 1.6 m length of string...
A pendulum consists of a 5.1 kg ball suspended by a 1.6 m length of string with negligible mass and is initially at rest. A 4.7 g bullet travelling at 660 m/s is fired horizontally into the ball and is lodged there. The ball and bullet rise together to a maximum height of h. Find h
A 0.25 kg ball is suspended from a light 1.1 m string as shown. The string...
A 0.25 kg ball is suspended from a light 1.1 m string as shown. The string makes an angle of 21° with the vertical. Let U = 0 when the ball is at its lowest point (θ = 0). 1. What is the gravitational potential energy, in joules, of the ball before it is released? 2. What will be the speed of the ball, in meters per second, when it reaches the bottom?
As shown in the figure below, object m1 = 1.60 kg starts at an initial height...
As shown in the figure below, object m1 = 1.60 kg starts at an initial height hij = 0.305 m and speed V1 = 4.00 m/s, swings downward and strikes in an elastic collision) object m2 = 4.55 kg which is initially at rest. 4.00 m/s m2 (a) Determine the speed of m(in m/s) just before the collision. X After you are convinced that energy is conserved as m, swings downward for the collision with me, see if you can...
A 0.36-kg ball is thrown vertically upward with an initial speed of 12.5 m/s. What is...
A 0.36-kg ball is thrown vertically upward with an initial speed of 12.5 m/s. What is the potential energy of the ball when it has travelled two-thirds of the distance to its maximum height? (Use the launch point to be the zero reference point of measurements of the heights)
Starting with an initial speed of 3.76 m/s at a height of 0.469 m, a 1.52-kg...
Starting with an initial speed of 3.76 m/s at a height of 0.469 m, a 1.52-kg ball swings downward and strikes a 5.52-kg ball that is at rest, as the drawing shows. (a) Using the principle of conservation of mechanical energy, find the speed of the 1.52-kg ball just before impact. (b) Assuming that the collision is elastic, find the velocity (magnitude and direction) of the 1.52-kg ball just after the collision. (c) Assuming that the collision is elastic, find...
Starting with an initial speed of 5.40 m/s at a height of 0.329 m, a 2.07-kg...
Starting with an initial speed of 5.40 m/s at a height of 0.329 m, a 2.07-kg ball swings downward and strikes a 4.27-kg ball that is at rest, as the drawing shows. (a) Using the principle of conservation of mechanical energy, find the speed of the 2.07-kg ball just before impact. (b) Assuming that the collision is elastic, find the velocity (magnitude and direction) of the 2.07-kg ball just after the collision. (c) Assuming that the collision is elastic, find...
P2. Starting with an initial speed of 5.00 m/s at a height of 0.300 m, a...
P2. Starting with an initial speed of 5.00 m/s at a height of 0.300 m, a 1.50-kg ball swings downward and strikes a 4.50-kg ball that is released from rest at a height of 0.100 m, as the (not to scale) drawing shows. The ball-release timing mechanism is calibrated so that they meet at the bottom of their respective swings, where h is taken to be zero. 1.50 kg 4.50 kg h-0.300 m Vi 5.00 m/s h2-0.100 nm ) Using...
5. Ball 1 has a mass of 2.0 kg and is suspended with a 3.0 m rope from a post so that the ball is stationary. Ball 2 has a mass of 4.0 kg and is tied to another rope. The second rope also measures 3.0 m but is held at a 60.0° angle, as shown in Figure 7. When ball 2 is released, it collides, head-on, with ball I in an elastic collision. (a) Calculate the speed of each...
A truck with a mass of 1710 kg and moving with a speed of 14.0 m/s rear-ends a 613 kg car stopped at an intersection. The collision is approximately elastic since the car is in neutral, the brakes are off, the metal bumpers line up well and do not get damaged. Find the speed of both vehicles after the collision in meters per second. m/s truck m/s car As shown in the figure below, object m, = 1.50 kg starts...
As shown in the figure below, object m1 = 1.60 kg starts at an initial height hij = 0.305 m and speed V1 = 4.00 m/s, swings downward and strikes in an elastic collision) object m2 = 4.55 kg which is initially at rest. 4.00 m/s m2 (a) Determine the speed of m(in m/s) just before the collision. X After you are convinced that energy is conserved as m, swings downward for the collision with me, see if you can...
P2. Starting with an initial speed of 5.00 m/s at a height of 0.300 m, a 1.50-kg ball swings downward and strikes a 4.50-kg ball that is released from rest at a height of 0.100 m, as the (not to scale) drawing shows. The ball-release timing mechanism is calibrated so that they meet at the bottom of their respective swings, where h is taken to be zero. 1.50 kg 4.50 kg h-0.300 m Vi 5.00 m/s h2-0.100 nm ) Using...
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