*25 O In Fig. 15-36, a block weighing 14.0 N, which can slide without friction on an incline at an- gle e = 40.0°, is connected to the top of the incline by a massless spring of unstretched length 0.450 m and spring constant 120 N/m. (a) How far from the top of the incline is the block's equilibrium point? (b) If the block is pulled slightly down the incline and released, what is the period of the resulting oscillations? %3! Figure 15-36 Problem 25.

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*25 O In Fig. 15-36, a block
weighing 14.0 N, which can slide
without friction on an incline at an-
gle e = 40.0°, is connected to the
top of the incline by a massless
spring of unstretched length 0.450
m and spring constant 120 N/m. (a)
How far from the top of the incline
is the block's equilibrium point? (b)
If the block is pulled slightly down the incline and released, what is
the period of the resulting oscillations?
%3!
Figure 15-36 Problem 25.
Transcribed Image Text:*25 O In Fig. 15-36, a block weighing 14.0 N, which can slide without friction on an incline at an- gle e = 40.0°, is connected to the top of the incline by a massless spring of unstretched length 0.450 m and spring constant 120 N/m. (a) How far from the top of the incline is the block's equilibrium point? (b) If the block is pulled slightly down the incline and released, what is the period of the resulting oscillations? %3! Figure 15-36 Problem 25.
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