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![ele EN] =B] et V₂ = 1, Vi=1 V N eigen vector corresponding ? =4 bem ] [] = [:] -21 -21 14 im -21 14 [*] =[:] nu let m₂ =1, m](http://img.homeworklib.com/questions/1b493fc0-f8e1-11ea-86f8-53607a7dbb1b.png?x-oss-process=image/resize,w_560)
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PLEASE ANSWER BOTH
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(1 point) A steel ball weighing 128 pounds...
Problem 1. 128 325 feet. (1 point) A steel ball weighing 128 pounds is suspended from...
Problem 1. 128 325 feet. (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring The ball is started in motion from the equilibrium position with a downward velocity of 8 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second) Suppose that after t seconds the ball is y feet below its rost position. Find y in terms of t....
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the...
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring feet. The ball is started in motion from the equilibrium position with a downward velocity of 3 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that this means...
(1 point) A steel ball weighing 128 pounds is suspended from a spring This stretches the...
(1 point) A steel ball weighing 128 pounds is suspended from a spring This stretches the spring 13 feet The ball is started in motion from the equilibrium position with a downward velocity of 9 feet per second The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second) Suppose that after t seconds the ball is y feet below its rest position Find y in terms of t. (Note that this...
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the...
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 128 257 feet. The ball is started in motion from the equilibrium position with a downward velocity of 3 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that...
145 (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches...
145 (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 128 feet The ball is started in motion from the equilibrium position with a downward velocity of 7 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that...
Problem 1. (point) A steel ball weighing 128 pounds is suspended from a spring. This stretches...
Problem 1. (point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring feet. The ball is started in motion from the equilibrium position with a downward velocity of 9 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity on feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that this...
A hollow steel ball weighing 24 pounds is suspended from a spring.
A hollow steel ball weighing 24 pounds is suspended from a spring. This stretches the spring 4 inches. The ball is started in motion from a point 3 inches above theequilibrium position.Let u(t) be the displacement of the mass from equilibrium. Suppose that after t seconds the ball is u feet below its rest position. Find u (in feet) in terms of t.(Note that the positive direction is down.)Take as the gravitational acceleration 32 feet per second per second.
I AM STRUGGLING HEAVILY ON THIS PROBLEM PLEASE HELP ME WITH THE CORRECT ANSWER AND NEAT...
I AM STRUGGLING HEAVILY ON THIS PROBLEM
PLEASE HELP ME WITH THE CORRECT ANSWER AND NEAT WORK PLEASE PLEASE
AND THANK YOU
Problem 1. (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 178 feet. The ball is started in motion from the equilibrium position with a downward velocity of 6 feet per second. The air resistance (in pounds) of the moving ball numerically equals times its velocity (in feet per second)...
STRUGGLING WITH THESE TWO SETS OF PROBLEMS ID APPRECIATE THE HELP AND ALL CORRECT ANSWERS PLEASE...
STRUGGLING WITH THESE TWO SETS OF PROBLEMS
ID APPRECIATE THE HELP AND ALL CORRECT ANSWERS PLEASE
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 528 feet. The ball is started in motion from the equilibrium position with a downward velocity of 7 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball...
I AM REALLY STRUGGLING ON THIS PROBLEM PLEASE HELP ME CORRECT AND NEAT WORK IS MUCH...
I AM REALLY STRUGGLING ON THIS PROBLEM
PLEASE HELP ME CORRECT AND NEAT WORK IS MUCH APPRECIATED THANKS
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 13 feet. The ball is started in motion from the equilibrium position with a downward velocity of 6 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds...
Problem 1. 128 325 feet. (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring The ball is started in motion from the equilibrium position with a downward velocity of 8 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second) Suppose that after t seconds the ball is y feet below its rost position. Find y in terms of t....
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring feet. The ball is started in motion from the equilibrium position with a downward velocity of 3 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that this means...
(1 point) A steel ball weighing 128 pounds is suspended from a spring This stretches the spring 13 feet The ball is started in motion from the equilibrium position with a downward velocity of 9 feet per second The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second) Suppose that after t seconds the ball is y feet below its rest position Find y in terms of t. (Note that this...
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 128 257 feet. The ball is started in motion from the equilibrium position with a downward velocity of 3 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that...
145 (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 128 feet The ball is started in motion from the equilibrium position with a downward velocity of 7 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that...
Problem 1. (point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring feet. The ball is started in motion from the equilibrium position with a downward velocity of 9 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity on feet per second). Suppose that after t seconds the ball is y feet below its rest position. Find y in terms of t. (Note that this...
I AM STRUGGLING HEAVILY ON THIS PROBLEM
PLEASE HELP ME WITH THE CORRECT ANSWER AND NEAT WORK PLEASE PLEASE
AND THANK YOU
Problem 1. (1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 178 feet. The ball is started in motion from the equilibrium position with a downward velocity of 6 feet per second. The air resistance (in pounds) of the moving ball numerically equals times its velocity (in feet per second)...
STRUGGLING WITH THESE TWO SETS OF PROBLEMS
ID APPRECIATE THE HELP AND ALL CORRECT ANSWERS PLEASE
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 528 feet. The ball is started in motion from the equilibrium position with a downward velocity of 7 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds the ball...
I AM REALLY STRUGGLING ON THIS PROBLEM
PLEASE HELP ME CORRECT AND NEAT WORK IS MUCH APPRECIATED THANKS
(1 point) A steel ball weighing 128 pounds is suspended from a spring. This stretches the spring 13 feet. The ball is started in motion from the equilibrium position with a downward velocity of 6 feet per second. The air resistance (in pounds) of the moving ball numerically equals 4 times its velocity (in feet per second). Suppose that after t seconds...
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