Solve the beam and dimension the cross-section of the rod, \( k_g = 160 MPa \).

Solve the beam and dimension the cross-section of the rod, \( k_c= 160 MPa, k_r=120 Mpa \).

Calculate the normal stresses in the beam loaded as shown in the figure.

Calculate the normal stresses in the beam loaded as shown in the figure.

Solve the beam and dimension the cross-section of the rod. Kg = 200 MPa.

Solve the beam and dimension the cross-section of the rod. Kr=Kc= 180 MPa.

Solve the beam and dimension the cross-section of the rod. Kg= 160 MPa

Calculate a from the safety condition, if kr=120MPa, kc=160MPa

Solve the beam and dimension the cross-section of the rod. Kg= 180 MPa.

Solve the frame and dimension the cross-section of the rod. Kg= 160 MPa

Solve the beam and draw the normal stress diagram.

Solve the beam and dimension the rod section. Kg = 200 MPa.

Solve the beam and measure the cross-section of the rod. Data: \(k_r=120 MPa, k_c=80 MPa\)

Calculate the load capacity (allowable value \(q\)) for the given beam, assuming allowable stresses \(R = 160\,\text{MPa}\).