For the rectangular plate with the thickness is t, all the four sides
are subjected to the distributive loading with density as 1 N/m2, and two
points along y-axis are subjected to the force as 2 N/m. The elastic modulus
is E, Poisson ratio v=0. Calculate the equilibrium equation of the structure
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For the rectangular plate with the thickness is t, all the four sidesare subjected to the distributive loading with density as 1 N/m2, and twopoints along y-axis are subjected to the force as 2 N/m. The elastic modulusis E, Poisson ratio v=0. Calculate the equilibrium equation of the structure.
For the rectangular plate with the thickness is t, all the four sidesare subjected to the distributive loading with density as 1 N/m2, and twopoints along y-axis are subjected to the force as 2 N/m. The elastic modulusis E, Poisson ratio v=0. Calculate the equilibrium equation of the structure.
1. The following is a one-layer truss structure fabricated from aluminum tubing with outside diameter and wall thickness as 0.4 inch and 0.05 inch, respectively. The Young's modulus and Poisson's ratio for aluminum are E= 10 x 10°psi, v=0.33, respectively. The applied load P is 60 Ib. Please answer = 60° B Ra all Cled URb The internal force for member AC is: -30 lb 34.6 lb 30 lb -34.6 lb Question 2 1 points Save Answer 1. The following...
Problem 9: The following steel structure is subjected at point A along the y axis, where there is also a spherical (ball) hinge, which constraints translations along x, y, and z at A, and there is a plane hinge at C. This plane hinge is contained in the x-z plane, which means it constraints translations along the x and z-axes. The force of 500 N at F is also contained in the x-z plane, forming 45° with the x-axis. The...
What force must be applied at point P to keep the structure shown in equilibrium? The weight of the structure is negligible. (Assume that the +x-axis is to the right and the +y-axis is up along the page. Give the magnitude in newtons and the direction in degrees counterclockwise from the +x-axis.) 9,760 N 1.0 m 2.0m 2.0m 4,880 N magnitude direction o counterclockwise from the +x-axis
uestion 2 5 points Save Answe A cylindrical bar of steel, 15 mm in diameter, is deformed elastically by an application of a tensile force along the bar's long axis. Determine the force that will produce an elastic decrease of 2 microns in the diameter. Consider the elastic modulus of steel to be 200 GPa and its Poisson's Ratio to be 0.30. 32,400 N -32,400 N 15,700 N -15,700 N
5) The figure below illustrates a large, flat, metal rectangular plate having large length, L (measured along the x-axis), large width, W (measured along the y-axis), and small thickness T (measured along the z-axis). Current I flows through the plate with uniform current density (directed along the positive x-axis) a) Use a symmetry argument to determine the direction of the magnetic field near the center of the plate at a field point, which is a distance z above the geometric...
A rectangular loop of wire with sides H = 28 cm and W = 52 cm is
located in a region containing a constant magnetic field B = 0.9 T
that is aligned with the positive y-axis as shown. The loop carries
current I = 177 mA. The plane of the loop is inclined at an angle θ
= 35o with respect to the x-axis.
1) What is μx, the x-component of the magnetic moment
vector of the loop? A-m2...
Due to the operational conditions and temperature gradient, a 95 mm diameter, 1.75 m long steel rod within a machine assembly is subjected to a combination of tensile loading of 190 N and thermal loading which imposes a longitudinal force of 244 N. The total loading results in an even distribution of forces on the body of the rod causing it to change its dimensions by increasing 0.45 mm in length at both ends and decreasing by 0.0135 mm at...
Due to the operational conditions and temperature gradient, a 95 mm diameter, 1.75 m long steel rod within a machine assembly is subjected to a combination of tensile loading of 190 N and thermal loading which imposes a longitudinal force of 244 N. The total loading results in an even distribution of forces on the body of the rod causing it to change its dimensions by increasing 0.45 mm in length at both ends and decreasing by 0.0135 mm at...