The drawing shows two frictionless inclines that begin at ground level (h = 0 m) and...
The drawing shows two frictionless inclines that begin at ground level (h = 0 m) and slope upward at the same angle θ. One track is longer than the other, however. Identical blocks are projected up each track with the same initial speed v0. On the longer track the block slides upward until it reaches a maximum height H above the ground. On the shorter track the block slides upward, flies off the end of the track at a height H1 above the ground, and then follows the familiar parabolic trajectory of projectile motion. At the highest point of this trajectory, the block is a height H2 above the end of the track. The initial total mechanical energy of each block is the same and is all kinetic energy. The initial speed of each block is v0 = 7.96 m/s, and each incline slopes upward at an angle of θ = 50.0°. The block on the shorter track leaves the track at a height of H1 = 1.25 m above the ground. Find (a) the height H for the block on the longer track and (b) the total height H1 + H2 for the block on the shorter track.
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The drawing shows two frictionless inclines that begin at ground
level (h = 0 m) and...
Block A begins at the top of the track with an initial speed. It then slides...
Block A begins at the top of the track with an initial speed. It then slides on the track without friction going down to the bottom and back up to the second platform. Finally, it collides with a stationary block, B and the two stick together and continue to slide. Block A, with mass, mA= 0.75 kg is given an initial velocity, v0= 1.3 m/s. Block A slides without friction along a track downward from a platform at height h1=...
At a height h = 44.0 m above the ground a rocket is fired at an...
At a height h = 44.0 m above the ground a rocket is fired at an initial speed v0 = 168.0 m/s at an angle θ = 27 degrees above the horizontal. Ignore air resistance. The magnitude of the gravitational acceleration is 9.8 m/s2. Choose the RIGHT as positive x-direction. Choose UPWARD as psotitive y-direction. Keep 2 decimal places in all answers (a) Find v0x, the x component of the initial velocity (in m/s) (b) Find v0y, the y component...
Consider a projectile launched at a height h feet above the ground and at an angle θ with the hor...
Consider a projectile launched at a height h feet above the ground and at an angle θ with the horizontal. If the initial velocity is v0 feet per second, the path of the projectile is modeled by the parametric equations x = t(v0 cos(θ)) and y = h + (v0 sin(θ))t − 16t2. The center field fence in a ballpark is 10 feet high and 400 feet from home plate. The ball is hit h = 2 feet above the...
A block of mass m slides down a frictionless incline. The block is released a height...
A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of m, g,...
Problem 3 A block of mass m slides down a frictionless incline. The block is released...
Problem 3 A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of...
Problem 3 A block of mass m slides down a frictionless incline. The block is released...
Problem 3 A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of...
A m= 5.0 kg block slides on a flat, smooth track with an initial speed of...
A m= 5.0 kg block slides on a flat, smooth track with an
initial speed of vi= 6 m/s. The block slides down a rough incline
that has a vertical height of h = 4 m onto another flat, smooth
track. The block’s final speed is vf= 10 m/s. How much energy is
lost to friction on the block as it slid down the incline?
An m 5.0 kg block slides on a flat, smooth track with an initial speed...
A cannonball is fired horizontally from the top of a cliff. The cannon is at height H = 70.0m above ground level, and t...
A cannonball is fired horizontally from the top of a cliff. The cannon is at height H = 70.0m above ground level, and the ball is fired with initial horizontal speed v0. Assume acceleration due to gravity to be g = 9.80m/s2 . Part A Assume that the cannon is fired at time t=0 and that the cannonball hits the ground at time tg. What is the y position of the cannonball at the time tg/2? Answer is 52.5 Part...
In the figure, a 3.7 kg block slides along a track from one level to a...
In the figure, a 3.7 kg block slides along a track from one
level to a higher level after passing through an intermediate
valley. The track is frictionless until the block reaches the
higher level. There a frictional force stops the block in a
distance d. The block's initial speed is
v0 = 5.1 m/s, the height difference is
h = 1.2 m, and μk = 0.585. Find
d.
0.5 m 30° A small o.05 kilogram block is released from rest at point A as...
0.5 m 30° A small o.05 kilogram block is released from rest at point A as shown above, a vertical distance h above the ground. It slides down an inclined track, around a circular loop of radius o.s meter, then up another incine that forms an angle of 309 with the horlzontal. The block slides of the track with a speed of 4.0 m/s at polnt C, which is a height of 0.50 meter above the Assume the entire track...
A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of m, g,...
Problem 3 A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of...
Problem 3 A block of mass m slides down a frictionless incline. The block is released a height h above the bottom of the loop. The bottom of the loop is circular with radius R. a) What is the force of the track on the block at point A? Express your answer in terms of m, g, h, and R. b) What is the force of the track on the block at point B? Express your answer in terms of...
A m= 5.0 kg block slides on a flat, smooth track with an
initial speed of vi= 6 m/s. The block slides down a rough incline
that has a vertical height of h = 4 m onto another flat, smooth
track. The block’s final speed is vf= 10 m/s. How much energy is
lost to friction on the block as it slid down the incline?
An m 5.0 kg block slides on a flat, smooth track with an initial speed...
In the figure, a 3.7 kg block slides along a track from one
level to a higher level after passing through an intermediate
valley. The track is frictionless until the block reaches the
higher level. There a frictional force stops the block in a
distance d. The block's initial speed is
v0 = 5.1 m/s, the height difference is
h = 1.2 m, and μk = 0.585. Find
d.
0.5 m 30° A small o.05 kilogram block is released from rest at point A as shown above, a vertical distance h above the ground. It slides down an inclined track, around a circular loop of radius o.s meter, then up another incine that forms an angle of 309 with the horlzontal. The block slides of the track with a speed of 4.0 m/s at polnt C, which is a height of 0.50 meter above the Assume the entire track...
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