Solve for the velocity at point B in m/s. You may assume point A is moving...
Solve for the velocity at point B in m/s. You may assume point A is moving in the -y direction and point B moves in the x-direction. y А, X TB/A 0.2m 3 VA = 2 m/s| 45° B
Solve for the velocity at point B in m/s. You may assume point A is moving in the -y direction and point B moves in the x-direction. у AC 0.2m - TB/A VA = 2 m/s 45° ω B NB
Question 3 5 pts Solve for the velocity at point B in m/s. You may assume point A is moving in the -y direction and point B moves in the x-direction. у А 0.2m -X TBA VA = 2 m/s] 45° B
Solve for the angular velocity of link AB in rad/s. You may assume point A is moving in the -y direction and point B moves in the x- direction. у A X TB/A 0.2m VA = 2 m/s 45° B VB
"Solve for the velocity at point B in m/s. You may assume point Cis moving in the -y direction and point B moves in the x-direction. у С х WCB 0.2 m vc = 2 m/s rB/C B VB 0.2 m
Question 3 5 pts Solve for the angular velocity of link AB in rad/s. You may assume point A is moving in the-y direction and point B moves in the x-direction. y А х 0.2m TBA va = 2 m/s 45° SB B
Solve for the angular velocity of link BC in rad/s. You may assume point C is moving in the -y direction and point B moves in the x-direction. у ФСВ 0.2 m Vc = 2 m/s IB/C B VB 0.2 m
2. A point mass "A" (2.5kg) moves at 3.8m/s along the x-axis in the +x direction, collides with point mass "B" (1.5kg) moving at 1.9m/s in the +y direction along the y-axis as shown. "A" emerges along the y-axis at a speed of 3.5m/s. Ignore gravity and friction in this problem. VA' = 3.5m/ VA = 3.8m/ ss A Find 's (magnitude and direction). Hint - use unit vectors. X vB = 1.9m/ B's
At the instant represented, the velocity of point A of the 2.06-m bar is 3.1 m/s to the right. Determine the speed Va of point B and the magnitude of the angular velocity w of the bar. The diameter of the small end wheels may be neglected. 0.52 m 59° BC 2.06 m А VA Answers: Va = m/s rad/s
A Review The roller at A is moving with a velocity of va = 4 m/s and has an acceleration of aA = 2 m/s² when A = 3.7 m (Figure 1) Part A Determine the velocity of block B at this instant. Express your answer to three significant figures and include the appropriate units. Enter positive value if the velocity is upward and negative value if the velocity is downward. I Å R O ? vB = Value Units...