A cannon ball is fired from a cannon located on top of a 30.0 meter tall wall into the distance. The initial velocity of the cannonball coming out of the cannon is vo. The initial angle of launch of the cannon ball is 0. We want to determine how far from the base of the wall the cannonball will strike the ground (in the horizontal direction) if we are given the initial speed vo and angle 0. (A) Sketch a graph showing position of the cannonball during its flight (y versus x) showing and labeling the initial velocity vector. Identify and write knowns and unknowns (B) Without using numerical values, determine which physics equations of motion will help solve this problem. Simplify as useful for this particular case. (C) If the initial cannonball speed is 75.0 m/s and its initial angle is 0=32.0 degrees, how far horizontally from the base of the wall does the cannonball land?
A cannon ball is fired from a cannon located on top of a 30.0 meter tall wall into the distance. The initial velocity of the cannonball coming out of the cannon is vo. The initial angle of launch of the cannon ball is 0. We want to determine how far from the base of the wall the cannonball will strike the ground (in the horizontal direction) if we are given the initial speed vo and angle 0. (A) Sketch a graph showing position of the cannonball during its flight (y versus x) showing and labeling the initial velocity vector. Identify and write knowns and unknowns (B) Without using numerical values, determine which physics equations of motion will help solve this problem. Simplify as useful for this particular case. (C) If the initial cannonball speed is 75.0 m/s and its initial angle is 0=32.0 degrees, how far horizontally from the base of the wall does the cannonball land?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![Free answer 1. Version B
A cannon ball is fired from a cannon located on top of a 30.0 meter tall wall into the distance. The
initial velocity of the cannonball coming out of the cannon is vo. The initial angle of launch of the
cannon ball is 0.
We want to determine how far from the base of the wall the cannonball will strike the ground (in
the horizontal direction) if we are given the initial speed vo and angle 0.
(A) Sketch a graph showing position of the cannonball during its flight (y versus x) showing and
labeling the initial velocity vector. Identify and write knowns and unknowns
(B) Without using numerical values, determine which physics equations of motion will help solve
this problem. Simplify as useful for this particular case.
(C) If the initial cannonball speed is 75.0 m/s and its initial angle is 0=32.0 degrees, how far
horizontally from the base of the wall does the cannonball land?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F464fe16a-00d5-4182-8379-61bd4b8bbe02%2F1b21752d-97b2-4df5-ad93-17147ca49620%2F91wk4jk_processed.png&w=3840&q=75)
Transcribed Image Text:Free answer 1. Version B
A cannon ball is fired from a cannon located on top of a 30.0 meter tall wall into the distance. The
initial velocity of the cannonball coming out of the cannon is vo. The initial angle of launch of the
cannon ball is 0.
We want to determine how far from the base of the wall the cannonball will strike the ground (in
the horizontal direction) if we are given the initial speed vo and angle 0.
(A) Sketch a graph showing position of the cannonball during its flight (y versus x) showing and
labeling the initial velocity vector. Identify and write knowns and unknowns
(B) Without using numerical values, determine which physics equations of motion will help solve
this problem. Simplify as useful for this particular case.
(C) If the initial cannonball speed is 75.0 m/s and its initial angle is 0=32.0 degrees, how far
horizontally from the base of the wall does the cannonball land?
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