For the specimen as shown in the figure, the greates ad that the bar can sustain...
What is the maximum weight W for the following figure if the rope can sustain a maximum tension of 500 Newtons? Weight = [Num]Newtons
Q.3 A solid dielectric specimen of relative permittivity of 3.0 shown in the following figure has an intern subjected to a voltage of 80 kV (rms). If the void is filled with air and the breakdown strength of air can be taken as 30 kV (peak)/cm, find the voltage at which an internal discharge can occur. (15 pts) al void of thickness 1 mm. The specimen is 10 mm thick and is 1mm 10 mm (rms) (15 pts) Q.3 A...
A bar of a steel alloy that exhibits the stress–strain behavior shown in the Animated Figure 6.22 is subjected to a tensile load; the specimen is 375 mm (14.8 in.) long and has a square cross section 5.5 mm (0.22 in.) on a side. (a) Compute the magnitude of the load necessary to produce an elongation of 1.5 mm (0.059 in.). (b) What will be the deformation after the load has been released?
Given: A four-bar linkage, with w2=10 rpm, as shown in the figure Please do the Position Plot, Position Analysis, Velocity Plot and Velocity Analysis, and find Find: VA VB, Vc, VD, VE E 3 AB = 1.75 AD= 3.55 CD=2.75 BC = 5.15 BE=2.5 EC = 4.0 BC 2 120 Given: A four-bar linkage, with w2=10 rpm, as shown in the figure Please do the Position Plot, Position Analysis, Velocity Plot and Velocity Analysis, and find Find: VA VB, Vc,...
A DC generator can be built as shown in the figure below. The bar, load (R), and rails form a closed circuit. The two rails are separated a distance d- 2m and the load resistance is R- 10Q. Assume the rails and bar are perfectly conducting and the bar moves to the right at a constant velocity v-10 m/s. The magnetic flux density is constant, directed upward, and equal to B-1 T. Suppose the rails in the figure resistance per...
2.34 The solid, continuous round bar shown in Figure P2.34 can be viewed as composed of a straight segment and a curved segment. Draw free-body diagrams for the segments 1 and 2. Also, determine the forces and moments acting on the ends of both segments. Neglect the weight of the member Round bar 2 90
The bar shown in figure below can rotate around the axis indicated by the dot counter clockwise. If a net torque of 3.5 N.m is experienced by the bar about the axis. (a) Draw a free body diagram, showing all horizontal and vertical forces acting on the bar. (b) Calculate the acting force F on the bar in N. (c) Calculate the angular acceleration in rad/s2 if the moment of inertia of the bar's is 0.5 kg.m?
Bar AB has the angular motions shown. Suppose that WAD = 4.2 rad/s and Q AD = 6.8 rad/s2 . (Figure 1) Part A Determine the velocity of the slider block C at this instant. Express your answer to three significant figures and include the appropriate units. HA ? (d, Value Units Figure < 1 of 1 > Submit Request Answer 0.5 m Part B Determine the acceleration of the slider block C at this instant. Express your answer to...
1. In which the experiments with a loop and a harmapet shown in Figure 21.10 an electric current induced in the loop at the instant shown in the figure in experiments (d) to in the greates around the given in de toil, the loop collapses as Indicated by the arrows Figure 21.1 a A O OGO: 0 6
Exercise 1 A conducting bar can slide freely over two conducting rails as shown in figure below. Calculate the induced voltage in the bar: a) If the bar is stationed at y 8 cm and B 4cos(106t) a, mWb/m2. Which point (P or Q) is at a higher potential when B is increasing. a) If the bar slides at a velocity u 20 ay m/s and B 4 a, mWb/m2 c) If the bar slides at a velocity u 20...