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Question 2 The stresses shown act at a point in a stressed body. Assume stress magnitudes...
The stresses shown act at a point in a stressed body. Assume stress magnitudes of Sx...
The stresses shown act at a point in a stressed body. Assume
stress magnitudes of Sx = 5.7 ksi,
Sy = 10.6 ksi, Sxy = 11
ksi, and β=58∘. Using the equilibrium equation approach, determine
the normal and shear stresses σ (positive if tensile, negative if
compressive) and τ (magnitude only) at this point on the inclined
plane shown.
S, ty Answers: 12.6 ksi,t- ksi.
Question1 The stresses shown act at a point in a stressed body. Assume stress magnitudes of...
Question1 The stresses shown act at a point in a stressed body. Assume stress magnitudes of Sx 66 MPa, Sy 45 MPa, Sxy 32 MPa, and/-52. Using the equilibrium equation approach, determine the normal and shear stresses ? (positive if tensile, negative if compressive) and t (magnitude only) at this point on the inclined plane shown. S, Answers: MPa. Answer * 1: the tolerance is +/-590
The stresses shown act at a point in a stressed body. Normal and shear stress magnitudes...
The stresses shown act at a point in a stressed body. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 16 MPa, Sv = 29 MPa, and Syy = 32 MPa 1. Using the equilibrium equation approach, determine the normal and shear stresses o (positive if tensile, negative if compressive) and T = 8.13°, a = 7, and b Assume B tan (magnitude only) at this point on the inclined plane shown....
P12.037 The stresses shown act at a point on the free surface of a stressed body....
P12.037 The stresses shown act at a point on the free surface of a stressed body. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 98.00 MPa 20 MPa, and Sxv = 72 MPa. Assume B = 57. Determine the normal stresses on and ot and the shear stress Int at this point if they act on the rotated stress element shown. 5 Su 15 Answers: On= MPa o MPа Int =...
The stresses shown on the left act at a point on the free surface of a...
The stresses shown on the left act at a point on the free surface of a stressed body. Assume stress magnitudes of Sx = 2,850 psi, Sy 1,300 psi, Sxy = 1,600 psi, and B = 27°. Determine the normal stresses On and Ok, and the shear stress Tnt at this point if they act on the rotated stress element shown on the right. 0 tnt Soy Answers: on = 1 psi 0 = psi Tnt = psi
The stresses shown in the figure act at a point in a stressed body. If o...
The stresses shown in the figure act at a point in a stressed body. If o - 136 MPa in the direction shown, determine the magnitude of the shear stress at this point on the inclined plane shown, 320 MPa 50 O 315 MPa 267 MPa O 168 MPa O 225 MPa 0 241 MPa - Consider a point in a structural member that is subjected to plane stress. Normal and shear stresses acting on horizontal and vertical planes at...
P12.024 The stresses shown on the left act at a point on the free surface of...
P12.024 The stresses shown on the left act at a point on the free surface of a stressed body. Assume stress magnitudes of Sy = 2,650 psi, Sy = 1,500 psi, Sxy = 1,850 psi, and ß = 27°. Determine the normal stresses on and ok, and the shear stress Tnt at this point if they act on the rotated stress element shown on the right. 0 Sxy 0 n Answers: On = psi t = psi Tnt = psi
Consider a point in a structural member that is subjected to plane stress. Normal and shear...
Consider a point in a structural member that is subjected to
plane stress. Normal and shear stress magnitudes acting on
horizontal and vertical planes at the point are
Sx = 45 MPa, Sy = 10 MPa,
and Sxy = 36 MPa.
(a) Determine the principal stresses ( σ p 1 > σ p 2 ) and the
maximum in-plane shear stress τ max acting at the point.
(b) Find the smallest rotation angle θ p (counterclockwise is
positive, clockwise is...
P12.026 The stresses shown act at a point on the free surface of a machine component....
P12.026
The stresses shown act at a point on the free surface of a
machine component. Normal and shear stress magnitudes acting on
horizontal and vertical planes at the point are
Sx = 17.9 ksi, Sy = 2.3
ksi, and Sxy = 7.4 ksi. Assume β=30∘. Determine
the normal stresses σx and σy and the shear stress τxyat the
point.
I tired those number and gave me wrong answers
x = 16.21 and 20.40
y = -10.81 and -0.2
xy...
The stresses shown act at a point on the free surface of a machine component. Normal...
The stresses shown act at a point on the free surface of a machine component. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 12.4 ksi, Sy = 1.9 ksi, and Sxy = 3.4 ksi. Assume B = 32°. Determine the normal stresses Ox and Oy and the shear stress Try at the point. S σα B Answers: *1 ksi. Ox = Oy ksi. Try ksi.
The stresses shown act at a point in a stressed body. Assume
stress magnitudes of Sx = 5.7 ksi,
Sy = 10.6 ksi, Sxy = 11
ksi, and β=58∘. Using the equilibrium equation approach, determine
the normal and shear stresses σ (positive if tensile, negative if
compressive) and τ (magnitude only) at this point on the inclined
plane shown.
S, ty Answers: 12.6 ksi,t- ksi.
Question1 The stresses shown act at a point in a stressed body. Assume stress magnitudes of Sx 66 MPa, Sy 45 MPa, Sxy 32 MPa, and/-52. Using the equilibrium equation approach, determine the normal and shear stresses ? (positive if tensile, negative if compressive) and t (magnitude only) at this point on the inclined plane shown. S, Answers: MPa. Answer * 1: the tolerance is +/-590
The stresses shown act at a point in a stressed body. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 16 MPa, Sv = 29 MPa, and Syy = 32 MPa 1. Using the equilibrium equation approach, determine the normal and shear stresses o (positive if tensile, negative if compressive) and T = 8.13°, a = 7, and b Assume B tan (magnitude only) at this point on the inclined plane shown....
P12.037 The stresses shown act at a point on the free surface of a stressed body. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 98.00 MPa 20 MPa, and Sxv = 72 MPa. Assume B = 57. Determine the normal stresses on and ot and the shear stress Int at this point if they act on the rotated stress element shown. 5 Su 15 Answers: On= MPa o MPа Int =...
The stresses shown on the left act at a point on the free surface of a stressed body. Assume stress magnitudes of Sx = 2,850 psi, Sy 1,300 psi, Sxy = 1,600 psi, and B = 27°. Determine the normal stresses On and Ok, and the shear stress Tnt at this point if they act on the rotated stress element shown on the right. 0 tnt Soy Answers: on = 1 psi 0 = psi Tnt = psi
The stresses shown in the figure act at a point in a stressed body. If o - 136 MPa in the direction shown, determine the magnitude of the shear stress at this point on the inclined plane shown, 320 MPa 50 O 315 MPa 267 MPa O 168 MPa O 225 MPa 0 241 MPa - Consider a point in a structural member that is subjected to plane stress. Normal and shear stresses acting on horizontal and vertical planes at...
P12.024 The stresses shown on the left act at a point on the free surface of a stressed body. Assume stress magnitudes of Sy = 2,650 psi, Sy = 1,500 psi, Sxy = 1,850 psi, and ß = 27°. Determine the normal stresses on and ok, and the shear stress Tnt at this point if they act on the rotated stress element shown on the right. 0 Sxy 0 n Answers: On = psi t = psi Tnt = psi
Consider a point in a structural member that is subjected to
plane stress. Normal and shear stress magnitudes acting on
horizontal and vertical planes at the point are
Sx = 45 MPa, Sy = 10 MPa,
and Sxy = 36 MPa.
(a) Determine the principal stresses ( σ p 1 > σ p 2 ) and the
maximum in-plane shear stress τ max acting at the point.
(b) Find the smallest rotation angle θ p (counterclockwise is
positive, clockwise is...
P12.026
The stresses shown act at a point on the free surface of a
machine component. Normal and shear stress magnitudes acting on
horizontal and vertical planes at the point are
Sx = 17.9 ksi, Sy = 2.3
ksi, and Sxy = 7.4 ksi. Assume β=30∘. Determine
the normal stresses σx and σy and the shear stress τxyat the
point.
I tired those number and gave me wrong answers
x = 16.21 and 20.40
y = -10.81 and -0.2
xy...
The stresses shown act at a point on the free surface of a machine component. Normal and shear stress magnitudes acting on horizontal and vertical planes at the point are Sy = 12.4 ksi, Sy = 1.9 ksi, and Sxy = 3.4 ksi. Assume B = 32°. Determine the normal stresses Ox and Oy and the shear stress Try at the point. S σα B Answers: *1 ksi. Ox = Oy ksi. Try ksi.
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