Consider a projectile on Earth, where +z is vertically upward. A cannon that is 1.50 m tall sits on the edge of a 50.0 m tall cliff oriented to fire in the +x direction. The cannon fires a 6.50 kg cannonball with an initial velocity of 110 m/s at an angle of 55° above the horizontal. Neglect air resistance. a) Write the acceleration of the cannon ball as a function of time as a column vector. b. write the canon ball's velocity as a function of time as a column vector c. write the canon ball's position as a function of time as a column vector d. how long does it take the canon ball to reach the highest point in it's trajectory e. what is the peak height the cannon ball attains

Consider a projectile on Earth, where +z is vertically upward. A cannon that is 1.50 m tall sits on the edge of a 50.0 m tall cliff oriented to fire in the +x direction. The cannon fires a 6.50 kg cannonball with an initial velocity of 110 m/s at an angle of 55° above the horizontal. Neglect air resistance. a) Write the acceleration of the cannon ball as a function of time as a column vector. b. write the canon ball's velocity as a function of time as a column vector c. write the canon ball's position as a function of time as a column vector d. how long does it take the canon ball to reach the highest point in it's trajectory e. what is the peak height the cannon ball attains

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Question

a) Write the acceleration of the cannon ball as a function of time as a column vector.

b. write the canon ball's velocity as a function of time as a column vector

c. write the canon ball's position as a function of time as a column vector

d. how long does it take the canon ball to reach the highest point in it's trajectory

e. what is the peak height the cannon ball attains

pls provide answers in handwritten manner

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Step 1: Given that:

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Step 2: a) Write the acceleration of the cannon ball as a function of time as a column vector.

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Step 3: b) write the canon ball's velocity as a function of time as a column vector

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Step 4: c) write the canon ball's position as a function of time as a column vector

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Step 5: d) how long does it take the canon ball to reach the highest point in it's trajectory

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Step 6: e) what is the peak height the cannon ball attains

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