Problem 1 out of 2: A single crystal of a metal that has the BCC crystal structure is oriented such that a tensile stress is applied in the 10 1) direction. The magnitude of this tensile stress is 4 MPa, and the critical resolved shear stress is 2.0 MPa. In this problem, we are interested in determining whether or not the crystal will slip in the [1 0 0] direction on the (0 1 2) plane. a) What is the direction of the tensile stress? b) What is the slip direction of interest? c) What is the direction normal to the slip plane? d) What is the resolved shear stress? General equation for the resolved shear stress: Value of the tensile stress:

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## Problem 1 out of 2: A single crystal of a metal that has the BCC crystal structure is oriented such that a tensile stress is applied in the \([ \bar{1} 0 1 ]\) direction. The magnitude of this tensile stress is 4 MPa, and the critical resolved shear stress is 2.0 MPa. In this problem, we are interested in determining whether or not the crystal will slip in the \([ 1 0 0 ]\) direction on the \(( 0 \bar{1} 2 )\) plane. **a) What is the direction of the tensile stress?** [Answer box] **b) What is the slip direction of interest?** [Answer box] **c) What is the direction normal to the slip plane?** [Answer box] **d) What is the resolved shear stress?** [Answer box] ### General equation for the resolved shear stress: [Equation box] ### Value of the tensile stress: [Answer box]