Determine the maximum average shear stress developed in each 12-mmmm-diameter bolt.

Determine the torsional shear stress developed at the following distances from the longitudinal axis of a...

Determine the torsional shear stress developed at the following distances from the longitudinal axis of a solid cylindrical shaft with a diameter of 50 mm: a) 5 mm, b) 15 mm, and c) at the outer surface of the shaft. The applied torque on the shaft is 2500 Nm.

The wall shear stress in a fully developed flow portion of a 18-in.-diameter pipe carrying water...

The wall shear stress in a fully developed flow portion of a 18-in.-diameter pipe carrying water is 1.65 lb/ft2. Determine the pressure gradient, ∂p/∂x, where x is in the flow direction, if the pipe is (a) horizontal, (b) vertical with flow up, or (c) vertical with flow down.

Determine the maximum shear stress (in MPa, using 2 decimal places) for a beam with the...

Determine the maximum shear stress (in MPa, using 2 decimal places) for a beam with the following data: Beam is 8 m in length (simply supported) Has an applied uniform distributed load of 39 kN/m Rectangular cross section rectangular with a base of 97 mm and a height of 235 mm

Fill in the blanks: 1) the stress developed in a cylindrical pressure vessel along the longitudinal...

Fill in the blanks: 1) the stress developed in a cylindrical pressure vessel along the longitudinal axis is........ 2) the stress developed in a cylindrical pressure vessel along the longitudinal axis is........ 3) To analyze the stress at any point of any component or structure one should consider..... True- false 1) the stress components (i.e normal stress and shear stress) that we determine using formulas developed in previous chapters are independent of the coordinate system. 2)normal stress is one coordinate...

Develop an equation for shear stress, of a fluid flowing through a pipe, assuming the shear...

Develop an equation for shear stress, of a fluid flowing through a pipe, assuming the shear stress is a function of the diameter, pipe roughness, fluid density, and dynamic viscosity How many dimensional groups are needed What is the best selection of repeating variables? Why? What are the exponents associated with the repeating variables ? What is the complete form of the pi numbers required? solve for the final expression relating the variables in question. One must determine experimentally any...

A torque T is applied to two tubes with the cross-sections shown. Assuming the same shear...

A torque T is applied to two tubes with the cross-sections shown. Assuming the same shear stress is developed in the two tubes, determine the ratio of the shear flow developed in each tube.      

Determine the maximum working voltage of a single core lead sheath cable having a conductor diameter...

Determine the maximum working voltage of a single core lead sheath cable having a conductor diameter of 1 cm and and sheath inside diameter of 5 cm, if two insulating material with permittivity 2.5 and 4 and of maximum electric stress 50 KV/cm and 60 KV/cm respectively are used. state the arrangement of the insulating materials from conductor to the sheath and find the maximum electric stress for each material and draw the electric stress as function of radius.

Determine the values of the maximum shear and moment for a car who weighs 30kN and...

Determine the values of the maximum shear and moment for a car who weighs 30kN and 70kN on each wheel, 4m apart, that rolls across a 6m simple span.

Q2: Three steel plates each having thickness 1.2 cm and width 6 cm are joined by...

Q2: Three steel plates each having thickness 1.2 cm and width 6 cm are joined by using two rivets having diameter 15 mm each. When the plates are subjected to an external force of 65 MN, what will be the shear stress developed in the rivet? If the ultimate shear strength on the rivet is limited to 1500 tonnes/cm2, what will be the maximum load that can be carried by the plate? Instead of three plates, if two steel plates...

A close-coiled helical spring has a wire diameter of 2.5 mm and a mean coil diameter...

A close-coiled helical spring has a wire diameter of 2.5 mm and a mean coil diameter of 4Omm. The spring is subjected to a combined axial load of 60N and a torque acting about the axis of the spring. determine the maximum permissible torque if (a) the material is brittle and ultimate failure is to beavoided, the criterion of failure is the maximum tensile stress, and the ultimate tensile stress is 1.2 GN/m2, (b) the material is ductile and failure...