A machine having mass of one tonne is mounted on the spring having stiffness of 2000 kN/m and damper having damping coefficient of 1050 N sec/m. The machine is subjected to external disturbing harmonic force of 0.8 kN at the frequency of 18.85 rad/s. The force transmitted to the foundation will be ________ (N)Correct answer is between '960,980'. Can you explain this answer?

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A machine having mass of one tonne is mounted on the spring having stiffness of 2000 kN/m and damper having damping coefficient of 1050 N sec/m. The machine is subjected to external disturbing harmonic force of 0.8 kN at the frequency of 18.85 rad/s. The force transmitted to the foundation will be ________ (N)

Correct answer is between '960,980'. Can you explain this answer?

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A machine having mass of one tonne is mounted on the spring having stiffness of 2000 kN/m and damper having damping coefficient of 1050 N sec/m. The machine is subjected to external disturbing harmonic force of 0.8 kN at the frequency of 18.85 rad/s. The force transmitted to the foundation will be ________ (N)Correct answer is between '960,980'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about A machine having mass of one tonne is mounted on the spring having stiffness of 2000 kN/m and damper having damping coefficient of 1050 N sec/m. The machine is subjected to external disturbing harmonic force of 0.8 kN at the frequency of 18.85 rad/s. The force transmitted to the foundation will be ________ (N)Correct answer is between '960,980'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A machine having mass of one tonne is mounted on the spring having stiffness of 2000 kN/m and damper having damping coefficient of 1050 N sec/m. The machine is subjected to external disturbing harmonic force of 0.8 kN at the frequency of 18.85 rad/s. The force transmitted to the foundation will be ________ (N)Correct answer is between '960,980'. Can you explain this answer?.

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