Question (1). The following system is oscillating under the action of a moment M = 20 sin(3t), t consists of a block having a mass m= 2kg, and a bent rod ABD which is massless, a spring of stiffness k= ry 10 from your registration number), length L= 0.4m and a damping coefficient e= 40 kg/s %3! %3D 1/2 %3D Calculate the following M 1. Natural frequency 2. Damping frequency 3. Damping ratio 4. The response of the block (m). 1/2
Question (1). The following system is oscillating under the action of a moment M = 20 sin(3t), t consists of a block having a mass m= 2kg, and a bent rod ABD which is massless, a spring of stiffness k= ry 10 from your registration number), length L= 0.4m and a damping coefficient e= 40 kg/s %3! %3D 1/2 %3D Calculate the following M 1. Natural frequency 2. Damping frequency 3. Damping ratio 4. The response of the block (m). 1/2
Related questions
Question
Transcribed Image Text:Question (1).
1/2
D.
The following system is oscillating under the action of a
moment M = 20 sin(3t), t consists of a block having a mass
m= 2kg, and a bent rod ABD which is massless, a spring of
stiffness k= ry 10 from your registration number),
length L 0.4m and a damping coefficient e= 40 kg/s
1/2
%3D
Calculate the following
1. Natural frequency
2. Damping frequency
3. Damping ratio
4. The response of the block (m).
1/2
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps with 2 images
