The torques shown are exerted on pulleys A and B. Knowing that both shafts are solid, determine

The torques shown are exerted on pulleys A and B. Knowing...

Key Concepts

Torsion in Circular Shafts

This concept involves analyzing the twisting effect generated when a torque is applied to a shaft. In mechanical design, understanding how the applied torque induces shear stresses throughout the cross-section of a shaft is crucial for ensuring that the material can withstand the loads without failure. It forms the basis for evaluating the structural integrity of shafts in applications like power transmission.

Shear Stress due to Torsion

Shear stress in a shaft under torsion is calculated using the formula ? = T*c/J, where T is the applied torque, c is the outer radius of the shaft, and J is its polar moment of inertia. This relation allows engineers to determine the maximum shear stress, which occurs at the outer surface, and is essential for comparing against material strength to prevent yield or failure.

Polar Moment of Inertia

The polar moment of inertia is a geometric property that measures a cross-section's ability to resist torsional deformation. For a circular shaft, it is calculated using a formula that involves the shaft's diameter, and it plays a key role in converting an applied torque into a corresponding shear stress. A higher polar moment of inertia indicates a greater resistance to twisting.

Solid vs. Hollow Shaft Analysis

The distinction between solid and hollow shafts is important in torsion analysis because the distribution of material affects the polar moment of inertia and, consequently, the shear stress distribution. In this context, recognizing that the shafts are solid simplifies the computation, as the formulas for a solid circular cross-section are well-established and directly applicable.

Transcript

00:01 In this problem as the peripheral motion of the gear are equal as the peripheral motions of the gear are equal motions of the gears are equal gears are equal i can write the value of r b 5 b is equal to r c 5 c now you can write the value of 5b is equal to i c 5 c by r b so it which is equal to 40 by 100 multiplication this value which is equal to 0 .4 5 c let it be equation number one now equate the sum of moment to 0 for gear c summation of mc is equal to 0 or t cd is equal to r c f or f is equal to t cd by r c also summation of mb is equal to zero equate the moment of equate the sum of moment to zero for gear b now you can write next expression edge t minus t abe is equal to r b f or t minus t ab b is equal to r b is equal to r b multiplication t cd by r c so t is equal to t a b plus 100 by 40 multiplication tcd which on further simplification you will get t is equal to t a b plus 2 .5 tcd let it be equation number now sigma b is equal to this value which is equal to t a b l by j g on further simplification it will be equal to t a b l by pi by two c to the power four g which is equal to t a b multiplication point three by pi by two multiplication 0 .03 to the power 4 multiplication g so you will get the value of 5b is equal to 235 .77 multiplication 10 to the power 3 t a b by g now this value will be equal to this which is equal to tcd l by j g that is equal to tcd l by j g that is equal to t cd l by pi by 2 multiplication 0 .0 225 to the power 4 multiplication g which on further simplification you can write the value of sigma c as 1 to 4 2 multiplication 10 to the power 3 t c d by g now from equation 1 sigma b is equal to 0 .4 sigma c from equation 1 you can write the next expression as or 235 .77 multiplication 10 to the power 3 t a b by g is equal to 0 .6 multiplication 1 to 4 2 multiplication 10 to the power 3 multiplication t cd by t c d by g finally you can write the value of t cd as 0 .47462 t a b now from equation 2 you can write t is equal to t a b plus 2 .5 tcd so t will be equal to t a b plus 2 .5 multiplication 047462 t ab from the upper equation which is equal to 2 .1865 t a b now on further simplification you can calculate the value of t is equal to t a b plus 2 .5 t cd so t is equal to t cd by 047462 plus 2 .5 tcd so t will be equal to 4 .7462 plus 2 .5 t cd so t will be equal to 4 .4162 plus 2 .4262 plus 2 .2 so t cd so t will 6 to 4 .60 4 .60 68 t cd now you can write the expression for tau a b is equal to t a b c by j also i can write t a b is equal to j b is equal to j by c multiplication tau ab which is equal to pi by 2 c cube tau a b that is equal to pi by 2 multiplication 0 .03 cube multiplication 50 multiplication 10 to the power 6 so you will get the value of t a b as 212 .6 newton meter now let us finally write the value of t so t will be equal to 2 .1865 t a b that will be equal to 2 .1865 multiplication 212 .6 so it will be equal to 4 .64 kilo newton meter as the final value now let us calculate the value of tcd so tau cd is equal to tcd e c by j t cd is equal to j by c t cd which is equal to pi by two ccube tau cd that on further simplification it will be equal to pi by two multiplication point zero two to five cube multiplication 50 multiplication 10 to the power 6 that is equal to 894 0 .62 newton meter and calculating the value of t that is equal to 4 .6068 t cd that is equal to 4 .6068 multiplication 894 .62 so you will get this value as 4 .12 kilo -neuton meter as the final value...

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