Mechanical Engineering Exam  >  Mechanical Engineering Questions  >  A vehicle suspension system consists of a spr... Start Learning for Free
A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factor ξξ and damped natural frequency (fd), respectively, are
  • a)
    0.471 and 1.19 Hz
  • b)
    0.471 and 7.48 Hz​
  • c)
    0.666 and 1.35 Hz
  • d)
    0.666 and 8.50 Hz
Correct answer is option 'A'. Can you explain this answer?
Most Upvoted Answer
A vehicle suspension system consists of a spring and a damper. The sti...
Can be calculated using the formula:

Damping factor = damping constant / (2 * square root(stiffness * mass))

= 400 / (2 * square root(3.6 * 50))

= 1.414

Therefore, the damping factor of the suspension system is approximately 1.414.
Attention Mechanical Engineering Students!
To make sure you are not studying endlessly, EduRev has designed Mechanical Engineering study material, with Structured Courses, Videos, & Test Series. Plus get personalized analysis, doubt solving and improvement plans to achieve a great score in Mechanical Engineering.
Explore Courses for Mechanical Engineering exam

Similar Mechanical Engineering Doubts

Top Courses for Mechanical Engineering

A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer?
Question Description
A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer?.
Solutions for A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? in English & in Hindi are available as part of our courses for Mechanical Engineering. Download more important topics, notes, lectures and mock test series for Mechanical Engineering Exam by signing up for free.
Here you can find the meaning of A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer?, a detailed solution for A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? has been provided alongside types of A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice A vehicle suspension system consists of a spring and a damper. The stiffness of the spring is 3.6 kN/m and the damping constant of the damper is 400 Ns/m. If the mass is 50 kg, then the damping factorξξand damped natural frequency (fd), respectively, area)0.471 and 1.19 Hzb)0.471 and 7.48 Hzc)0.666 and 1.35 Hzd)0.666 and 8.50 HzCorrect answer is option 'A'. Can you explain this answer? tests, examples and also practice Mechanical Engineering tests.
Explore Courses for Mechanical Engineering exam

Top Courses for Mechanical Engineering

Explore Courses
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev