System A System B 의 heee ellel Systems A and B contain identical ideal springs and identical blocks that can slide along a surface of negligible friction. In system A, the surface is horizontal. In system B, the surface makes an angle e with the horizontal. Initially, both blocks are at rest and in equilbrium Each block then pulled the same distance d in the direction shown in the figures and released from rest at t=0 A student wants to use an apparatus similar to system B to measure the acceleration due to gravity g. If the mass of the block, the force constant of the spring, and the angle of the incline are known, what additional data must be measured to determine an experimental value for o? 11. The stretch of the spring at the equilibrium position L. IL The speed of the block as it passes the equilibrium position

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System A
System B
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Systems A and B contain identical ideal springs and identical blocks that can slide along a surface of negligible friction. In system A, the surface is horizontal. In system B, the surface makes an angle 0 with the horizontal. Initially, both blocks are at rest and in equilibrium. Each block is
then pulled the same distance d in the direction shown in the figures and released from rest at t = 0.
A student wants to use an apparatus similar to system B to measure the acceleration due to gravity g. If the mass of the block, the force constant of the spring, and the angle of the incline are known, what additional data must be measured to determine an experimental value for g ?
1. I. The stretch of the spring at the equilibrium position
II. II. The speed of the block as ít passes the equilibrium position
III. III. The time interval between two consecutive passes through the equilibrium position
Transcribed Image Text:System A System B llll heeeee elll Systems A and B contain identical ideal springs and identical blocks that can slide along a surface of negligible friction. In system A, the surface is horizontal. In system B, the surface makes an angle 0 with the horizontal. Initially, both blocks are at rest and in equilibrium. Each block is then pulled the same distance d in the direction shown in the figures and released from rest at t = 0. A student wants to use an apparatus similar to system B to measure the acceleration due to gravity g. If the mass of the block, the force constant of the spring, and the angle of the incline are known, what additional data must be measured to determine an experimental value for g ? 1. I. The stretch of the spring at the equilibrium position II. II. The speed of the block as ít passes the equilibrium position III. III. The time interval between two consecutive passes through the equilibrium position
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stems A and B contain identical ideal springs and identical blocks that can slide
en pulled the same distance d in the direction shown in the figures and released fro
student wants to use an apparatus similar to system B to measure the acceleration
I. I. The stretch of the spring at the equilibrium position
II. II. The speed of the block as it passes the equilibrium position
III. III. The time interval between two consecutive passes through the equilibrium
I only
II only
I and II
II and III
I and III
A,
D.
Transcribed Image Text:ell stems A and B contain identical ideal springs and identical blocks that can slide en pulled the same distance d in the direction shown in the figures and released fro student wants to use an apparatus similar to system B to measure the acceleration I. I. The stretch of the spring at the equilibrium position II. II. The speed of the block as it passes the equilibrium position III. III. The time interval between two consecutive passes through the equilibrium I only II only I and II II and III I and III A, D.
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