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A mass is connected by a spring and damper to the wall as shown in the following figure. The floor is slippery so there is no friction. The mass is pushed by a force f in the x direction. f K₁ 1000000 given data: .f✓₁ M X K₂ f✓2 E M = 20 kg K₁ = 2 N/m K₂ = 7 N/m fv1 = 3 N-det/m fv2 = 5 N-det/m Calculate the transfer function X(s)/F(s) of the system.

A mass is connected by a spring and damper to the wall as shown in the following figure. The floor is slippery so there is no friction. The mass is pushed by a force f in the x direction. f K₁ 1000000 given data: .f✓₁ M X K₂ f✓2 E M = 20 kg K₁ = 2 N/m K₂ = 7 N/m fv1 = 3 N-det/m fv2 = 5 N-det/m Calculate the transfer function X(s)/F(s) of the system.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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I have a question in my home work related Control System Lesson. The following below is my question.
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A mass is connected by a spring and damper to the wall as shown in the following figure. The floor is slippery so there is no friction. The mass is pushed by a force f in the x direction. f •1000000 given data: -fv₁ F K₁₁ 000000 M X K₂ 000000 ifv2 E M = 20 kg K₁ = 2 N/m K₂ = 7 N/m fv1 = 3 N-det/m fv2 = 5 N-det/m Calculate the transfer function X(s)/F(s) of the system.
Transcribed Image Text:A mass is connected by a spring and damper to the wall as shown in the following figure. The floor is slippery so there is no friction. The mass is pushed by a force f in the x direction. f •1000000 given data: -fv₁ F K₁₁ 000000 M X K₂ 000000 ifv2 E M = 20 kg K₁ = 2 N/m K₂ = 7 N/m fv1 = 3 N-det/m fv2 = 5 N-det/m Calculate the transfer function X(s)/F(s) of the system.
Expert Solution
Step 1

Given Figure:

Electrical Engineering homework question answer, step 1, image 1

Given:

M = 20 kgK1 = 2N/mK2 = 7 N/mfv1 = 3 N-det/mfv2 = 5 N-det/m

Find:

calculate transfer function: T.F. = X(s)F(s)

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