In the figure above, block B with a mass mB = 8.5 kg is accelerating down a frictionless incline at a uniform rate. Block A is being pulled by a string attached between these two blocks and moves over a massless, frictionless pulley. The coefficient of friction between block A and the horizontal surface is m = 0.22. The angle between the incline and the horizontal is a = 42°. The resulting acceleration of the system along the horizontal and inclined surfaces is a = 1.65 m/s2.
(a) Draw and label the forces (not components) that act on block B as it slides down the incline, which is indicated by the dashed line.
(b) Calculate the normal force of the incline pushing on block B. If you need to draw anything other than what you have shown in part (a) to assist in your solution, use the space below. Do NOT add anything to the figure in part (a).
(c) Calculate the tension in the string connecting the two masses.
(d) On the diagram below, draw and label all the forces acting on block A.
(e) Determine the value of the mass mA for block A.
Answers: 2
Other questions on the subject: Physics
Physics, 23.06.2019 02:00, temperent6049
How does the strength of the electrostatic force between an electron and a proton compare to the strength of the gravitational force between them?
Answers: 1
Physics, 23.06.2019 02:00, juliashalnev
Objects a and b are visible in the night sky. six months later they are still visible, but object b shows less parallax than object a. which object is closer? a. a b. b c. you would need to wait another six months in order to figure this out. d. you would need to know the objects' angular diameters in order to figure this out.
Answers: 3
You know the right answer?
In the figure above, block B with a mass mB = 8.5 kg is accelerating down a frictionless incline at...
Questions in other subjects:
Biology, 29.10.2020 17:40
History, 29.10.2020 17:40
Mathematics, 29.10.2020 17:40
