A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and starting from rest. The incline rises at 30 degrees above the horizontal, and at the instant the car leaves it, its engine turns off and the car is now subjected only to gravity (free fall). Along the ramp, gravity is neglected (which means that the only acceleration to consider is a=0.6t along the ramp).
a. Calculate the maximum height the car reaches as measured from the bottom of the ramp.
b. Calculate range of the car as measured from the bottom of the ramp.
c. Calculate the speed of the car right before it hits the ground.
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A car is launched by accelerating it along a 200m inclined plane
such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and starting from rest. The incline rises at 30 degrees above the horizontal, and at the instant the car leaves it, its engine turns off and the car is now subjected only to gravity (free fall). Along the ramp, gravity is neglected (which means that the only acceleration to consider is a=0.6t along the ramp). Calculate the maximum height the car reaches as measured from...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and starting from rest. The incline rises at 30 degrees above the horizontal, and at the instant the car leaves it, its engine turns off and the car is now subjected only to gravity (free fall). Along the ramp, gravity is neglected (which means that the only acceleration to consider is a=0.6t along the ramp). Calculate range of the car as measured from the bottom...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and starting from rest. The incline rises at 30 degrees above the horizontal, and at the instant the car leaves it, its engine turns off and the car is now subjected only to gravity (free fall). Along the ramp, gravity is neglected (which means that the only acceleration to consider is a=0.6t along the ramp). Calculate the speed of the rocket right before it hits...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and...
A car is launched by accelerating it along a 200m inclined plane such that a=0.6t and starting from rest. The incline rises at 30 degrees above the horizontal, and at the instant the car leaves it, its engine turns off and the car is now subjected only to gravity (free fall). Along the ramp, gravity is neglected (which means that the only acceleration to consider is a=0.6t along the ramp). Calculate the velocity of the car as it leaves the...
A test rocket is launched by accelerating it along a 200.0-m incline at 2.29 m/s2 starting...
A test rocket is launched by accelerating it along a 200.0-m incline at 2.29 m/s2 starting from rest at point A (the figure (Figure 1) .) The incline rises at 35.0 ∘ above the horizontal, and at the instant the rocket leaves it, its engines turn off and it is subject only to gravity (air resistance can be ignored). A.) Find the maximum height above the ground that the rocket reaches. B.) Find the greatest horizontal range of the rocket...
Q9: A test rocket is launched from rest over a ramp of 100 m that is...
Q9: A test rocket is launched from rest over a ramp of 100 m that is inclined by an angle of 30 degrees from the horizontal. Along the ramp, the rocket is accelerated by a force of F(x)=4x N. At the instant the rocket leaves the ramp, the force F(x) drops to zero, and the rocket is now subjected only to gravity (free fall). *New information: mass of rocket m= 1kg. a) Calculate the magnitude of the velocity of the...
Constants A test rocket starting from rest at point A is launched by accelerating it along...
Constants A test rocket starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.60 m/s2 (Figure 1). The incline rises at 35.0° above the horizontal, and at the instant the rocket leaves it, its engines turn off and the rocket is subject to gravity only (ignore air resistance) Figure 1 of 1> 200.0 m 35.0° Find the rocket's greatest horizontal range beyond point A. Express your answer with the appropriate units. Submit Request...
3.43 CP A test rocket Figure P3.43 starting from rest at point A is launched by...
3.43 CP A test rocket Figure P3.43 starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.48 m/s (Fig. P3.43). The incline rises at 35.0° above the horizontal, and at the in- stant the rocket leaves it, the engines turn off and the rocket is subject to gravity only (ignore air resistance). Find (a) the maximum height above the ground that the rocket reaches, and (b) the rocket's greatest horizontal range beyond point...
Problem 3.43 Constants Part A A test rocket starting from rest at point A is launched...
Problem 3.43 Constants Part A A test rocket starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.60 m/s (Figure 1). The incline rises at 35.0° above the horizontal, and at the instant the rocket leaves it, its engines turn off and the rocket is subject to gravity only (ignore air resistance) Find the maximum height above the ground that the rocket reaches Express your answer with the appropriate units hmaxValue Units Figure...
Prelab Questions l. A car is given a push up an incline. Predict its motion from...
Prelab Questions l. A car is given a push up an incline. Predict its motion from the time it leaves the pusher's hand to the time it hits the bottom of the track. Sketch graphs describing position along the ramp vs. time and velocity vs. time. Take up the ramp as the positive direction and ignore friction As the car moves up the ramp, will kinetic energy increase, decrease or stay the same? Explain. As the car moves up the...
Constants A test rocket starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.60 m/s2 (Figure 1). The incline rises at 35.0° above the horizontal, and at the instant the rocket leaves it, its engines turn off and the rocket is subject to gravity only (ignore air resistance) Figure 1 of 1> 200.0 m 35.0° Find the rocket's greatest horizontal range beyond point A. Express your answer with the appropriate units. Submit Request...
3.43 CP A test rocket Figure P3.43 starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.48 m/s (Fig. P3.43). The incline rises at 35.0° above the horizontal, and at the in- stant the rocket leaves it, the engines turn off and the rocket is subject to gravity only (ignore air resistance). Find (a) the maximum height above the ground that the rocket reaches, and (b) the rocket's greatest horizontal range beyond point...
Problem 3.43 Constants Part A A test rocket starting from rest at point A is launched by accelerating it along a 200.0-m incline at 1.60 m/s (Figure 1). The incline rises at 35.0° above the horizontal, and at the instant the rocket leaves it, its engines turn off and the rocket is subject to gravity only (ignore air resistance) Find the maximum height above the ground that the rocket reaches Express your answer with the appropriate units hmaxValue Units Figure...
Prelab Questions l. A car is given a push up an incline. Predict its motion from the time it leaves the pusher's hand to the time it hits the bottom of the track. Sketch graphs describing position along the ramp vs. time and velocity vs. time. Take up the ramp as the positive direction and ignore friction As the car moves up the ramp, will kinetic energy increase, decrease or stay the same? Explain. As the car moves up the...
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