In vibration testing, an instrumented hammer is often used to hit a device to excite it and to measure the impact force simultaneously. If the device being tested is a single- degree-of-freedom system, determine the response at t = 0.55 s of the device considering: M = 1 kg. c = 5 kg/s, k = 100 N/m, and F(t) = 0.38 (t) +0.28 (t - 0.5) N Assume that the initial conditions are zero. 0.08 mm 0.98 mm 1.77 mm 3.29 mm 2.08 mm Test Structure FO Impact Hammer 1 x(1) D
In vibration testing, an instrumented hammer is often used to hit a device to excite it and to measure the impact force simultaneously. If the device being tested is a single- degree-of-freedom system, determine the response at t = 0.55 s of the device considering: M = 1 kg. c = 5 kg/s, k = 100 N/m, and F(t) = 0.38 (t) +0.28 (t - 0.5) N Assume that the initial conditions are zero. 0.08 mm 0.98 mm 1.77 mm 3.29 mm 2.08 mm Test Structure FO Impact Hammer 1 x(1) D
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![In vibration testing, an instrumented hammer is often used to hit a device to excite it and to measure the impact force simultaneously. If the device being tested is a single-
degree-of-freedom system, determine the response at t = 0.55 s of the device considering:
M = 1 kg, c = 5 kg/s, k = 100 N/m, and F(t) = 0.35 (t) +0.28 (t - 0.5) N
Assume that the initial conditions are zero.
0.08 mm
0.98 mm
1.77 mm
3.29 mm
2.08 mm
Test
Structure.
FO
C
www.
Impact
Hammer
▼x(1)
D](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F16b912c1-1633-4cb3-9d2e-817ad07dfeec%2F648b2f79-095c-43f2-b78e-f1413baa5b39%2Fwzovfbf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In vibration testing, an instrumented hammer is often used to hit a device to excite it and to measure the impact force simultaneously. If the device being tested is a single-
degree-of-freedom system, determine the response at t = 0.55 s of the device considering:
M = 1 kg, c = 5 kg/s, k = 100 N/m, and F(t) = 0.35 (t) +0.28 (t - 0.5) N
Assume that the initial conditions are zero.
0.08 mm
0.98 mm
1.77 mm
3.29 mm
2.08 mm
Test
Structure.
FO
C
www.
Impact
Hammer
▼x(1)
D
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