PLEASE DO POST COMMENTS IF YOU HAVE ANY DOUBT. PRESS THUMBS UP IF YOU LIKE THE ANSWER AND THE EFFORT.
THANKS
Each of the sliding bars A and B engages its respective rim of the two riveted...
Each of the sliding bars A and B engages its respective rim of the two riveted wheels without slipping. Determine the magnitude of the velocity of point P for the position shown. VA = 0.82 m/s 105 mm A P 155 mm B Up = 0.57 m/s Answer: Vp = m/s
Each of the sliding bars A and B engages its respective rim of the two riveted wheels without slipping. Determine the magnitude of the velocity of point P for the position shown. = 0.40 m/s A 240 mm #0.47 m/s 0.705 Answer: Vp- m/s
Each of the sliding bars A and B engages its respective rim of the two riveted wheels without slipping. Determine the magnitude of the velocity of point P for the position shown. = 0.40 m/s A...
The two slender bars each of mass m = 4.6 kg and length b = 700 mm are pinned together and move in the vertical plane. If the bars are released from rest in the position shown and move together under the action of a couple M = 16 Nom of constant magnitude applied to AB, determine the velocity of A as it strikes O. Initially the angle 0 = 24º. B ele B M Answer: VA = m/s
The wheel consists of a 2.5-kg rim of radius r = 215 mm with hub and spokes of negligible mass. The wheel is mounted on the 3.0-kg yoke OA with mass center at G and with a radius of gyration about 0 of 350 mm. If the assembly is released from rest in the horizontal position shown and if the wheel rolls on the circular surface without slipping, compute the velocity of point A when it reaches A'. Assume d...
The wheel consists of a 2.6-kg rim of 420-mm radius with hub and
spokes of negligible mass. The wheel is mounted on the 3.7-kg yoke
OA with mass center at G and with a radius of
gyration about O of 495 mm. If the assembly is released
from rest in the horizontal position shown and if the wheel rolls
on the circular surface without slipping, compute the velocity of
point A when it reaches A'.
Answer: vA =
m/s
420...
You have two carts labeled A and B as shown in the figure above. Cart A is twice the mass of cart B and is moving with a velocity of 5 m/s towards cart B. Cart Bis stationary. The magnitude of the total linear momentum of the system before the collision is 50 kg m/s. After the collision, both the carts stick and move together. What is the magnitude of the final velocity of the system? VA=5 m/s Vp=0 А...
show all work please
find both AB and BC!!
The assembly consists of two 25-kg bars which are pin connected. The bars are released from rest when 0 = 60°. The 8-kg disk at C has a radius of 0.5 m and rolls without slipping. (Figure 1) Figure 1 of 1 В 3 m 3 m o А C Determine the angular velocity of the bar AB at the instant 0 = 30°, measured clockwise. Express your answer in radians...
1.
2.
6.
4.
Vectors A and B lie in an xy plane. A has magnitude 5.2 and angle 121°; B has components B - -8.80 and By - -5.09. (a) What is 5A-B ? what is 4A x 38 in unit-vector notation ((b), (c) and (d) for i , j and k components respectively)? (e) what is the angle between the directions of A and 4A x 38 7 what is A + 3.00k in unit-vector notation (), (a)...
Can anyone explains all the answers? Two balls, A and B are thrown at the same angle above horizontal, but initial velocity of ball A is two times greater than initial velocity of ball B. Ignore air resistance. we can conclude that horizontal range covered by ball A is same as range covered by ball B twice the range covered by ball B four times the range covered by ball B. greater than horizontal range covered by ball b, but...