The minimum bending radius for 3-in diameter integrated gas-spacer cable is ___ in.
For a non metallic sheathed cable the bending radius is 5 times the diameter of the cable.
Here dia= 3 in so bending radius is
5*3 in= 15in
The minimum bending radius for 3-in diameter integrated gas-spacer cable is ___ in.
A solid circular rod of diameter d undergoes a bending moment of M = 1250 lbf ∙ in inducing a stress of ? = 32? ?? 3 ⁄ . Using a material strength of 33 ksi and a design factor of 2.5, determine the minimum diameter of the rod. Using Table A2-1, select a preferred basic fractional diameter and then calculate the resulting new factor of safety.
7.4 The tension in the cable at 80 m from the lower pier (3) [10] QUESTION 8: COMBINED BENDING AND TWISTING OF SHAFTS A hollow shaft has an outside diameter of 100 mm and a bore of 75 mm. The yield stress in shear for the material is 200 MPa. The shaft is subjected to combined twisting and bending, with the bending moment being three times the applied torque. Calculate the following: 8.1 By using a safety factor of 4,...
3. A coaxial cable has the inner conductor with radius of 0.8 mm and the outher conductor with inside radius of 3.00 mm and outside radius of 4.00mm. The space between the conductors is filled with material having 2.3 dielectric constant and 18.0x 106 V/m dielectric strength. Calculate the maximum potential difference this cable can withstand.
3 out of 3 attempts The 5-mm-diameter cable B C is made of a material with E 200 GPa. Knowing that the maximum stress in the cable must not exceed 195 MPa and that the elongation of the cable must not exceed 5 mm, find the maximum load P that can be applied as shown 1.5 m 6.5 m 5.0 m kN
Two stretched cables both experience the same stress. The first cable has a radius of 3.2x10-3 m, and is subject to a stretching force of 230 N. The radius of the second cable is 4.8x10-3 m. Determine the stretching force on the second cable.
Two stretched cables both experience the same stress. The first cable has a radius of 3.3x10-3 m, and is subject to a stretching force of 270 N. The radius of the second cable is 4.7x10-3 m. Determine the stretching force on the second cable.
Problem 3: An infinitely long coaxial cable with inner radius a and outer radius b has the intervening space with one region as free space and the other two with relative permittivities and E as shown in figure. Find the capacitance per unit length.
A coaxial cable, as shown in Figure 2, consists of an inner conductor of radius a, surrounded by an outer conductor of radius b, along the same axis. The space is filled with dielectric. The cable is connected to a power supply and it is deposited a charge of +Q uniformly along the length of the surface of the inner conductor and a charge - Q uniformly along the length of the inner surface of the outer conductor. No fields...
Strain Energy and impact load Determine the effective cable diameter necessary for a hoist designed for the following conditions: Maximum load (total) 3000 kg Minimum free length of cable : 4.5 meters Maximum Speed of load : 3.2 Km/hr Ultimate tensile stress of cable : 1400 Mpa Modulus of elasticity : 110 Gpa Factor of safety 5 Assume instantaneous brake action for design purpose. All Dimensions are in "mm"
Calculating the Rodius and Diameter of acade Nome Radius and Diameter What is the rodius and diameter of each circle? 12 cm radius rodius = radius diameter radius diameter diameter diameters 1:1000 1.000 | @ @ @ radius = radius radius = radius diameter = diameter = diameter = diameter 18 km radius radius radius diameter radius diameter diameter diameter John has a round swimming pool. The distance from the center of the pool to the edge is 3 meters....