A bullet is fired at an initial velocity of 130 m/s horizontally (0 degrees) at the top of a 123 m tall puilding. Neglecting air resistance, determine the velocity in m/s with which the bullet will hit the ground. Use the value of the gravity in 2 decimal place. Use up to 4 decimal places. NOTE: Do not assume that this is the same problem as the previous question. The numerical values for each question are different.
A bullet is fired at an initial velocity of 130 m/s horizontally (0 degrees) at the top of a 123 m tall puilding. Neglecting air resistance, determine the velocity in m/s with which the bullet will hit the ground. Use the value of the gravity in 2 decimal place. Use up to 4 decimal places. NOTE: Do not assume that this is the same problem as the previous question. The numerical values for each question are different.
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![Question Completion Status:
A bullet is fired at an initial velocity of 130 m/s horizontally (0 degrees) at the top of a 123 m tall
puilding. Neglecting air resistance, determine the velocity in m/s with which the bullet will hit the
ground. Use the value of the gravity in 2 decimal place.
Use up to 4 decimal places.
NOTE: Do not assume that this is the same problem as the previous question. The numerical
values for each question are different.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F10b20e44-e666-469b-b020-f7c2a9f2f9de%2Fe07131b4-a221-4932-9e8c-9d064d66b5ef%2Frpprg4_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question Completion Status:
A bullet is fired at an initial velocity of 130 m/s horizontally (0 degrees) at the top of a 123 m tall
puilding. Neglecting air resistance, determine the velocity in m/s with which the bullet will hit the
ground. Use the value of the gravity in 2 decimal place.
Use up to 4 decimal places.
NOTE: Do not assume that this is the same problem as the previous question. The numerical
values for each question are different.
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