For a tool with a rake angle of 0, determine the bounds for the shear plane...

Take the tool rake angle as 10°. Use Merchant’s formula to plot the shear plane angle...

Take the tool rake angle as 10°. Use Merchant’s formula to plot the shear plane angle as a function of the friction coefficient. Also, plot the cutting ratio as a function of the friction coefficient.

Derive the cutting ratio or chip-thickness ratio in terms of the shear angle and rake angle....

Derive the cutting ratio or chip-thickness ratio in terms of the shear angle and rake angle. (please explain with details)

Derive the coefficient of friction in terms of the cutting force, thrust force and rake angle

Derive the coefficient of friction in terms of the cutting force, thrust force and rake angle

Determine all (?0, ?0 ) in the xy-plane for which the d.e. ??/?? = ?/? would...

Determine all (?0, ?0 ) in the xy-plane for which the d.e. ??/?? = ?/? would have a unique solution whose graph passes through (?0, ?0 ).

A soil element is subjected to a minor principle stress of 50 kPa on a plane...

A soil element is subjected to a minor principle stress of 50 kPa on a plane rotated 20 °counterclockwise from vertical. If the deviator stress is 120 kPa and the shear strength parameters are a friction angle of 30° and a cohesion of 5 kPa, determine the magnitude of the stresses on the failure plane and the orientation of this plane with respect to the major principle stress plane.

(a) Two separate direct shear tests were conducted on soil samples with the shear box having...

(a) Two separate direct shear tests were conducted on soil samples with the shear box having dimensions of 80 mm × 80 mm on plan view. Assuming this cross-sectional area remains unchanged, determine the cohesion intercept (c’) and friction angle (φ’) of the soil based on the following results obtained at failure. Direct shear test results Test Normal force (N) Shear force (N) 1 210 257 2 360 372 (b) A CU triaxial test was conducted on a specimen of...

A 42.0 kg block lies on a smooth(friction less) inclined plane tilted at an angle of...

A 42.0 kg block lies on a smooth(friction less) inclined plane tilted at an angle of 35° to the horizontal. a) Draw the free-body diagram for the block. b) Determine the block's acceleration as it slides down the inclined plane.

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha:...

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha: β1 > 0, with n = 25 and t = 1.2 < p < (b) Ha: β1 ≠ 0, with n = 22, b1 = 0.22, and sb1 = 0.08 < p < (c) Ha: β1 < 0, with n = 22, b1 = -1.46, and sb1 = 0.79 < p <

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha:...

Determine the p-value for each of the following situations. (Give your answer bounds exactly.) (a) Ha: β1 > 0, with n = 29 and t = 1.76 < p < (b) Ha: β1 ≠ 0, with n = 15, b1 = 0.23, and sb1 = 0.11 < p < (c) Ha: β1 < 0, with n = 25, b1 = -1.53, and sb1 = 0.71

1. Solve all three: a. Determine whether the plane 2x + y + 3z – 6...

1. Solve all three: a. Determine whether the plane 2x + y + 3z – 6 = 0 passes through the points (3,6,-2) and (-1,5,-1) b. Find the equation of the plane that passes through the points (2,2,1) and (-1,1,-1) and is perpendicular to the plane 2x - 3y + z = 3. c. Determine whether the planes are parallel, orthogonal, or neither. If they are neither parallel nor orthogonal, find the angle of intersection: 3x + y - 4z...