zet.pdf Given the mass at D is 85 kg, what is the magnitude of tension in...
#8 Mechanical Equilibrium: suspended blocks A 10.4 kg mass is suspended from the ceiling with a cable of negligible mass. A 12.5 kg mass is attached (and suspended below) the 10.4 kg mass with a cable, also of negligible mass. What are the tensions, respectively, connecting the 10.4 kg mass to the ceiling (cable 1) and the cable connecting the 12.5 kg mass to the 10.4 kg mass (cable 2) O A. cable 1: 102 N; cable 2: 123 N...
N Determine the tension in each cable and the components of the reaction at D needed to support the load F. Use a = 8.8 m, b = 3.4 m, c = 3.0 m, and F = 1100 N for your calculations. Your Answer: Tension in cable AB in N (round the result to the nearest integer): Tension in cable AC in N (round the result to the nearest integer): Magnitude of the x-component of the reaction at Din N...
Using Figure 1 and based on a FBD of A: What is the magnitude of tension in the cable from A to C if the mass of the plant is 45 lbm? a. 24.5 lbf b. 789 lbf C. 29.4 lbf d. 945 lbf су В 30° 5 4 A D
1. A mass of 4.00 kg is supported in the X-Y plane by two strings. String 1 pulls up and to the left. String 2 pulls up and to the right. Both strings are attached to the ceiling. String 1 makes an angle of 40.0 degrees with the ceiling. The tension on string 1 is 35.0 N. a) Draw the free body diagram of the mass and two strings. b) What is the magnitude of the X component of the...
Chapter 6, Problem 6/049 The 2.4-kg collar at C has an outer diameter of 85 mm and is press fitted to the light 60-mm-diameter shaft. Each spoke has a mass of 2.0 kg and carries a 3.6-kg sphere with a radius of 50 mm attached to its end. The pulley at D has a mass of 6.8 kg with a centroidal radius of gyration of 90 mm. If a tension T 19 N is applied to the end of the...
3.
a. If cable CB is subjected to a tension that is twice that of
cable CA, find the angle θ:
b. If cable CB is subjected to a tension equal to the tension in
cable CA, find the forces on the cables if the cylinder’s mass is
10 kg.
3. A. If cable CB is subjected to a tension that is twice that of cable CA, find the angle 6: a. 14.5° b. 60.0° c. 64.3° d. 30.0° 3....
(b) Express the normal force in terms of its magnitude in newtons and direction angles in degrees. N N = O C Y = Cable CD and the smooth bar hold the 155 kg slider in place. The slider D is at the midpoint of bar AB 7 C (0, 7.5, 6) m A (5,2,4)m у X в 5,2, -2)m Determine the magnitude of the tension in the cable in newtons. N (a) Express the normal force that the bar...
A 13.5 m boom, AB, of a crane lifting a 3,000 kg load is shown
below. The center of mass of the boom is at its geometric center,
and the mass of the boom is 2,800 kg.
For the position shown, calculate the following.
tension T in the cable (in N)
N
the force at the axle A (Give the magnitude in newtons and the
direction in degrees counterclockwise from the +x-axis. Assume that
the +x-axis is to the right.)...
A crate with a mass of 161.5 kg is suspended from the end of a
uniform boom with a mass of 71.3 kg. The upper end of the boom is
supported by a cable attached to the wall and the lower end by a
pivot (marked X) on the same wall. Calculate the tension in the
cable.
A crate with a mass of 161.5 kg is suspended from the end of a uniform boom with a mass of 71.3 kg....
9. A truss and a steel cable are supporting a mass of m = 20 kg as shown. A cable is supported by a frictionless pulley at point B for L = 500 m, d = 200 m, and h = 300 m. (a) (2 marks) Draw a free-body diagram and show all forces that act on this structure (b) (1 mark) Find the magnitude of the tension force in the steel cable, (c) (3 marks) Find the x and...