Asked by KATLO ESHIMA
A 5.00 g bullet (bullet 1) is fired from a gun at height of 2.00 m above a horizontal surface. When the bullet
leaves the muzzle of the gun it is travelling at a velocity of <⃗# = 45.0 ms-1 2. At the same moment a similar ̂
is bullet (bullet 2) is dropped from rest from the same height. Ignore air resistance.
(a) Calculate the time it takes each bullet to reach the ground. Compare your answers.
(b) Draw a free body diagram for each bullet during the motion.
(c) Calculate the velocity with which each bullet hits the ground.
(d) How far down range does bullet 1 travel?
(e) If bullet 1 was fired a +45° angle (in reference to the +"-axis) from the same initial height, how far
would it have travelled down range when it hit the ground
leaves the muzzle of the gun it is travelling at a velocity of <⃗# = 45.0 ms-1 2. At the same moment a similar ̂
is bullet (bullet 2) is dropped from rest from the same height. Ignore air resistance.
(a) Calculate the time it takes each bullet to reach the ground. Compare your answers.
(b) Draw a free body diagram for each bullet during the motion.
(c) Calculate the velocity with which each bullet hits the ground.
(d) How far down range does bullet 1 travel?
(e) If bullet 1 was fired a +45° angle (in reference to the +"-axis) from the same initial height, how far
would it have travelled down range when it hit the ground
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