An object of mass 0.500 kg is released from the top of a building of height 7.00 m. The object experiences a horizontal constant force of Fwind=(-1.901) due to the wind blowing. Use the standard rectangular coordinate system with the +x axis to the right, +y axis vertically up, and +2 axis coming out toward you. Take the origin of the coordinate system to be at the point release of the object. (a) Find the time it takes for the object to strike the ground. s (b) What is the acceleration of the object? Express your answer in vector form. m/s² a (c) What is the displacement of the object before it hits the ground? Express your answer in vector form.

An object of mass 0.500 kg is released from the top of a building of height 7.00 m. The object experiences a horizontal constant force of Fwind=(-1.901) due to the wind blowing. Use the standard rectangular coordinate system with the +x axis to the right, +y axis vertically up, and +2 axis coming out toward you. Take the origin of the coordinate system to be at the point release of the object. (a) Find the time it takes for the object to strike the ground. s (b) What is the acceleration of the object? Express your answer in vector form. m/s² a (c) What is the displacement of the object before it hits the ground? Express your answer in vector form.

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Question

An object of mass 0.500 kg is released from the top of a building of height 7.00 m. The object experiences a horizontal constant force of Fwind=(-1.901) due to the wind blowing. Use the standard rectangular coordinate system with the +x axis to the right, +y axis
vertically up, and +z axis coming out toward you. Take the origin of the coordinate system to be at the point of release of the object.
(a) Find the time it takes for the object to strike the ground.
(b) What is the acceleration of the object? Express your answer in vector form.
m/s2
(c) What is the displacement of the object before it hits the ground? Express your answer in vector form.
d
m

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Step 1: Determine the given data:

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Step 2: Draw the diagram:

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Step 3: a) Determine the time taken to strike the ground:

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Step 4: b) Calculate the acceleration of the object:

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Step 5: c) Calculate the displacement of the object when it hits the ground:

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