2. When a taut string is unwound from a stationary cylinder, the end B of the string generates a curve known as the involute of a circle. If the string is unwound at the constant angular speed w, the B Involute equation of the involute is String - x = R cos wt + Rwt sin wt y = R sin wt – Rot cos wt A R where R is the radius of the cylinder. Find the speed of B as a function of time. Show that the velocity vector is always perpendicular to the string.
2. When a taut string is unwound from a stationary cylinder, the end B of the string generates a curve known as the involute of a circle. If the string is unwound at the constant angular speed w, the B Involute equation of the involute is String - x = R cos wt + Rwt sin wt y = R sin wt – Rot cos wt A R where R is the radius of the cylinder. Find the speed of B as a function of time. Show that the velocity vector is always perpendicular to the string.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
2. When a taut string is unwound from a stationary cylinder, the end B of
the string generates a curve known as the involute of a circle. If
the string is unwound at the constant angular speed ω, the
equation of the involute is
? = ? ??? ?? + ??? ??? ?? ? = ? ??? ?? − ??? ??? ??
where R is the radius of the cylinder. Find the speed of B as a function of
time. Show that the velocity
Transcribed Image Text:2. When a taut string is unwound from a stationary cylinder, the end B of
y
the string generates a curve known as the involute of a circle. If
the string is unwound at the constant angular speed w, the
equation of the involute is
B
Involute
String
x = R cos wt + Rwt sin wt
y = R sin wt – Rwt cos wt
A
R
where R is the radius of the cylinder. Find the speed of B as a function of
time. Show that the velocity vector is always perpendicular to the string.
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