A mass m=720.0 g and spring with spring constant k oscillates with angular frequency ω=9.80 rad/s and amplitude xm=15.0 cm as in Figure 5. It is maximally stretched at time t=0 (i.e.x(0)=+xm and Φ=0). D. At t=5s the total mechanical energy E_____ E at t=3 s. a) > b) = c) < E. Calculate the length L of a Simple Pendulum with the same period T of this mass.
A mass m=720.0 g and spring with spring constant k oscillates with angular frequency ω=9.80 rad/s and amplitude xm=15.0 cm as in Figure 5. It is maximally stretched at time t=0 (i.e.x(0)=+xm and Φ=0). D. At t=5s the total mechanical energy E_____ E at t=3 s. a) > b) = c) < E. Calculate the length L of a Simple Pendulum with the same period T of this mass.
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A mass m=720.0 g and spring with spring constant k oscillates with angular frequency ω=9.80 rad/s and amplitude xm=15.0 cm as in Figure 5. It is maximally stretched at time t=0 (i.e.x(0)=+xm and Φ=0).
D. At t=5s the total mechanical energy E_____ E at t=3 s.
a) > b) = c) <
E. Calculate the length L of a Simple Pendulum with the same period T of this mass.
![m
-Xm
x = 0
+x,
Figure 5:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8669c346-3c1c-4fba-9bd7-ca273b01942a%2F5675a963-c13d-4242-b6ae-03152c18e121%2Fgwfgw8l_processed.png&w=3840&q=75)
Transcribed Image Text:m
-Xm
x = 0
+x,
Figure 5:
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