The motion of a particle is defined by the relation x = 2t3 - 7t +10, where x and t are expressed in feet and seconds, respectively. Determine the acceleration in fps² of the particle when v = 0.Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places.QUESTION 8Using the formula a = kt where k is a constant, determine the velocity in m/s at 1 second, knowing that at t = 3 s, v = 18 m/s, and the particle stops at t = 7 seconds.Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places.QUESTION 9Using the formula a = kt where k is a constant, determine the value of k, knowing that at t = 3 s, v = 18 m/s, and the particle stops at t = 7 seconds.Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places. Include the sign of the answer.QUESTION 10A ball is thrown so that the motion is defined by the equations x = 5t and y = 2 + 6t - 4.9t2, where x and y are expressed in meters and t is expressed in seconds. Determine the magnitude of the velocity at t=1s,Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places. Include the sign of the answer.QUESTION 11A ball is thrown so that the motion is defined by the equations x = 5t and y = 2 + 6t - 4.9t2, where x and y are expressed in meters and t is expressed in seconds. Determine the horizontal distance the ball travels before hitting the ground.Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places. Include the sign of the answer.QUESTION 12A ball is thrown so that the motion is defined by the equations x = 5t and y = 2 + 6t - 4.9t2, where x and y are expressed in meters and t is expressed in seconds. Determine the maximum elevation of the ball with respect to the ground.Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places. Include the sign of the answer.

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The motion of a particle is defined by the relation x = 2t3 - 7t +10, where x and t are expressed in feet and seconds, respectively. Determine the acceleration in fps2 of the particle when v = 0. Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places.

The motion of a particle is defined by the relation x = 2t3 - 7t +10, where x and t are expressed in feet and seconds, respectively. Determine the acceleration in fps2 of the particle when v = 0. Write the numerical value (without the unit) on the box provided. Use up to 4 decimal places.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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