90 02 / A particle slides along a curve defined by the path equation,r = 4 + sin(50), wherer is in meters and 0 is in radians. The angular position, 0 , in radians , is given by 0 = (T/6)t , where t is in seconds. At t = 4 seconds, determine: 120 150 180 1. V, and Ve. 2. a, and ae. 3. Plot the velocity components. 210 330 240 300 270
90 02 / A particle slides along a curve defined by the path equation,r = 4 + sin(50), wherer is in meters and 0 is in radians. The angular position, 0 , in radians , is given by 0 = (T/6)t , where t is in seconds. At t = 4 seconds, determine: 120 150 180 1. V, and Ve. 2. a, and ae. 3. Plot the velocity components. 210 330 240 300 270
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![Q2 / A particle slides along a curve defined by the path
equation,r = 4 + sin(50), wherer is in meters and 0
is in radians. The angular position, 0 , in radians , is
given by 0 = (n/6)t , where t is in seconds. Att = 4
120
150
30
180
seconds, determine:
1. V, and Ve.
2. а, апd ae-
3. Plot the velocity components.
210
330
240
300
270](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F63759d2e-56a9-420a-8cca-16e0d664bc5b%2F40c0fedb-b9ce-4d84-9ab3-d00095b53497%2Fkpvhhmw_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q2 / A particle slides along a curve defined by the path
equation,r = 4 + sin(50), wherer is in meters and 0
is in radians. The angular position, 0 , in radians , is
given by 0 = (n/6)t , where t is in seconds. Att = 4
120
150
30
180
seconds, determine:
1. V, and Ve.
2. а, апd ae-
3. Plot the velocity components.
210
330
240
300
270
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