D3. The sphere at A forms a pendulum anchored at pivot P by its 2.4 m long cord, Figure D3. The sphere is released with a velocity of 6 m/s and swings in the vertical plane. When the sphere reaches B the cord strikes the fixed peg C while the sphere continues to swing along the circular arc BDE. Using an energy method, calculate the velocity of the sphere as is arrives at point E. Assume the radius of peg C is zero and take g = 10 m/s?. P Potential energy datum I 70° 2.4 m 1.6 m Figure D3. ID 6 m/s В
D3. The sphere at A forms a pendulum anchored at pivot P by its 2.4 m long cord, Figure D3. The sphere is released with a velocity of 6 m/s and swings in the vertical plane. When the sphere reaches B the cord strikes the fixed peg C while the sphere continues to swing along the circular arc BDE. Using an energy method, calculate the velocity of the sphere as is arrives at point E. Assume the radius of peg C is zero and take g = 10 m/s?. P Potential energy datum I 70° 2.4 m 1.6 m Figure D3. ID 6 m/s В
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Transcribed Image Text:D3. The sphere at A forms a pendulum anchored at pivot P by its 2.4 m long cord, Figure D3.
The sphere is released with a velocity of 6 m/s and swings in the vertical plane. When the
sphere reaches B the cord strikes the fixed peg C while the sphere continues to swing along
the circular arc BDE. Using an energy method, calculate the velocity of the sphere as is
arrives at point E. Assume the radius of peg C is zero and take g = 10 m/s2.
Potential energy datum
I 70°
2.4 m
1.6 m
Figure D3.
6 m/s
В
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