A block is positioned on a 40° slope as shown, and a spring is attached to it as shown. The spring is relaxed (unstretched) in the position shown. The block is given an initial velocity V₁ = 6 m/s downslope. Find the distance "d" that the block will slide before it comes to a stop. Use the Principle of Work and Energy.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Y = 6 m/s
40°
funt
JMK = 0.35
= TBD
block: m= 5 kg
Spring: k = 100 N/m
Value
L = won't be needed
A black is positioned.
on a 40° slope as shown, and a
spring is attached
to it as shown. The spring is relaxed (unstretched) in the position shown.
The block is given an initial velocity V₁ = 6 m/s downslope. Find the distance
"d" that the block will slide before it comes to a stop. Use the Principle of
Work and Energy.
Transcribed Image Text:Y = 6 m/s 40° funt JMK = 0.35 = TBD block: m= 5 kg Spring: k = 100 N/m Value L = won't be needed A black is positioned. on a 40° slope as shown, and a spring is attached to it as shown. The spring is relaxed (unstretched) in the position shown. The block is given an initial velocity V₁ = 6 m/s downslope. Find the distance "d" that the block will slide before it comes to a stop. Use the Principle of Work and Energy.
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