To investigate the effect of force orientation on the velocity of a collar, following experiment has been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The coefficient of friction between the collar and shaft is µr. Although the magnitude of the force is constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0 varies with time such that 0 kt, where k is a constant, determine velocity of the collar, v2, when O is 90°. Also, find magnitude of F in which vi=v2. F Fixed-magnitude force with variable direction m
To investigate the effect of force orientation on the velocity of a collar, following experiment has been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The coefficient of friction between the collar and shaft is µr. Although the magnitude of the force is constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0 varies with time such that 0 kt, where k is a constant, determine velocity of the collar, v2, when O is 90°. Also, find magnitude of F in which vi=v2. F Fixed-magnitude force with variable direction m
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![To investigate the effect of force orientation on the velocity of a collar, following experiment has
been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The
coefficient of friction between the collar and shaft is lk. Although the magnitude of the force is
constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0
varies with time such that 0
kt, where k is a constant, determine velocity of the collar, v2, when
O is 90°. Also, find magnitude of F in which v1=v2.
Fixed-magnitude
force with variable
direction
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F975c7fbb-6de5-4db4-a30d-4f20beb906f3%2F3d884a46-4586-431b-8e72-1454a4bc0a64%2Fnyndgo6_processed.png&w=3840&q=75)
Transcribed Image Text:To investigate the effect of force orientation on the velocity of a collar, following experiment has
been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The
coefficient of friction between the collar and shaft is lk. Although the magnitude of the force is
constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0
varies with time such that 0
kt, where k is a constant, determine velocity of the collar, v2, when
O is 90°. Also, find magnitude of F in which v1=v2.
Fixed-magnitude
force with variable
direction
m
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What about v2 at theta = 90
![To investigate the effect of force orientation on the velocity of a collar, following experiment has
been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The
coefficient of friction between the collar and shaft is lk. Although the magnitude of the force is
constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0
varies with time such that 0
kt, where k is a constant, determine velocity of the collar, v2, when
O is 90°. Also, find magnitude of F in which v1=v2.
Fixed-magnitude
force with variable
direction
m](https://content.bartleby.com/qna-images/question/975c7fbb-6de5-4db4-a30d-4f20beb906f3/6c9c76a0-08e1-44a1-b8c2-33f33f7a116d/nyuqk6f_thumbnail.png)
Transcribed Image Text:To investigate the effect of force orientation on the velocity of a collar, following experiment has
been conducted. Force F is applied to the following collar to slide on a horizontal shaft. The
coefficient of friction between the collar and shaft is lk. Although the magnitude of the force is
constant (F < mg), its direction is variable. Velocity of collar when 0 = 0 is v, to the right. If 0
varies with time such that 0
kt, where k is a constant, determine velocity of the collar, v2, when
O is 90°. Also, find magnitude of F in which v1=v2.
Fixed-magnitude
force with variable
direction
m
Solution
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