Find c using a kinematic equation. Please use a photo to show solutions (i cannot see the whole solution when it is typed only, is this a problem only for me?) A circus acrobat is launched by a catapult at a speed of 15.0 [m] at an angle of 0 = 40.0°above the horizontal as shown. At a distance of 20.0 [m] away, her partner is standing on aplatform at a height of h meters. At the instant that the acrobat is launched, her partnerthrows a basketball towards her horizontally at a speed of 5.00 [m/s]. Ignore air resistancein solving this problem.20 my5 m/sh15 m/sorigin(a) Write equations for the horizontal and vertical positions as functions of time for both theacrobat and the basketball. Use the coordinate system prescribed in the diagram.(b) When will the acrobat and basketball be at the same horizontal position?(c) Find the value of h for which the acrobat will catch the ball. Assume that she and the ballmust be at the same height for her to catch it.

Name: Find c using a kinematic equation. Please use a photo to show solution
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Description: Find c using a kinematic equation. Please use a photo to show solutions (i cannot see the whole solution when it is typed only, is this a problem only for me?) A circus acrobat is launched by a catapult at a speed of 15.0 [m] at an angle of 0 = 40.0°

We know that the second equation of motion is given as S= ut +12at2 where u is the initial velocity…

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A circus acrobat is launched by a catapult at a speed of 15.0 [m] at an angle of 0 = above the horizontal as shown. At a distance of 20.0 [m] away, her partner is standi platform at a height of h meters. At the instant that the acrobat is launched, her throws a basketball towards her horizontally at a speed of 5.00 [m/s]. Ignore air res in solving this problem.

A circus acrobat is launched by a catapult at a speed of 15.0 [m] at an angle of 0 = above the horizontal as shown. At a distance of 20.0 [m] away, her partner is standi platform at a height of h meters. At the instant that the acrobat is launched, her throws a basketball towards her horizontally at a speed of 5.00 [m/s]. Ignore air res in solving this problem.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 5CQ: Suppose you add two vectors A and B . What relative direction between them produces the resultant...

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