You are designing a missile defense system that will shoot down incoming missiles that pass over a perimeter defense post. The set-up is shown below. An incoming missile passes directly above the defense base. Radar at the base can measure the height, h, and speed, v1, of the incoming missile. Your Patriot Rocket is set to fire at an angle of 0 = 65° from vertical. You design the Patriot Rocket so the magnitude of its acceleration is given by: az = Ae-bt where A can be set on your Patriot Rocket as it is fired, 6 = 0.3 s-1, andt = 0s when it is fired. The direction of your Patriot Rocket's vector acceleration stays at the same angle, 0, for the entire trip. If an incoming missile passes over the defense base at a height of 4.4 km and at a constant speed of 734 m/s (this means that i, is constant), solve for the value of A your Patriot Rocket must have in order to hit the incoming missile. You will also need to enter results from intermediate steps of your calculation, including the horizontal distance Ar from the launch station to the impact position, and the time tf at impact. Horizontal Distance to Collision Ar= 9435.83m Time of Collision tf= 12.86s Value of Rocket Constant A A=
You are designing a missile defense system that will shoot down incoming missiles that pass over a perimeter defense post. The set-up is shown below. An incoming missile passes directly above the defense base. Radar at the base can measure the height, h, and speed, v1, of the incoming missile. Your Patriot Rocket is set to fire at an angle of 0 = 65° from vertical. You design the Patriot Rocket so the magnitude of its acceleration is given by: az = Ae-bt where A can be set on your Patriot Rocket as it is fired, 6 = 0.3 s-1, andt = 0s when it is fired. The direction of your Patriot Rocket's vector acceleration stays at the same angle, 0, for the entire trip. If an incoming missile passes over the defense base at a height of 4.4 km and at a constant speed of 734 m/s (this means that i, is constant), solve for the value of A your Patriot Rocket must have in order to hit the incoming missile. You will also need to enter results from intermediate steps of your calculation, including the horizontal distance Ar from the launch station to the impact position, and the time tf at impact. Horizontal Distance to Collision Ar= 9435.83m Time of Collision tf= 12.86s Value of Rocket Constant A A=
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I can’t figure out the value of A.
Transcribed Image Text:You are designing a missile defense system that will shoot down incoming missiles that pass over a perimeter defense post. The set-up is shown below. An incoming missile
passes directly above the defense base. Radar at the base can measure the height, h, and speed, v1, of the incoming missile. Your Patriot Rocket is set to fire at an angle of
0 = 65° from vertical. You design the Patriot Rocket so the magnitude of its acceleration is given by:
az = Ae-bt
where A can be set on your Patriot Rocket as it is fired, 6 = 0.3 s-1, andt = 0s when it is fired. The direction of your Patriot Rocket's vector acceleration stays at the same
angle, 0, for the entire trip. If an incoming missile passes over the defense base at a height of 4.4 km and at a constant speed of 734 m/s (this means that i, is constant), solve
for the value of A your Patriot Rocket must have in order to hit the incoming missile. You will also need to enter results from intermediate steps of your calculation, including the
horizontal distance Ax from the launch station to the impact position, and the time tf at impact.
Horizontal Distance to Collision
Ax= 9435.83m
Time of Collision
tf= 12.86s
Value of Rocket Constant A
A=
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