A block of a linear-elastic material is used as an earthquake damper in a building. The material has a square shape (in plan view) of side length,d, and a thickness, h. During an earthquake, it is observed that the upper plate moves laterally (to the left) x inches. Determine the force F on the top plate given:
x = 0.6 in
h = 5 in
d = 13 in
G = 6 ksi
Force (F) on top plate =? k
Round answer to the nearest tenth.
Force on the top plate will be due to shear
stress generated. Which will be equal to product of shear stress
and plan area on which shear stress is acting.
A block of a linear-elastic material is used as an earthquake damper in a building. The...
A force, F, is applied to the top plate resulting in a A block of a linear-elastic material is attached to steel plates on top and bottom. shear deformation in the material Find the shear strain, y, given: F 600 lbs a 12 in b 6 in h 10 in G 50 ksi YNumber rad
A cubic block of side lengths h and mass density p rests on a horizontal flat rigid plate, as shown. Assuming that the cube is isotropic and linearly elastic, whose material properties are characterized by the Young's modulus (E) and Poisson's ratio (v), determined the strain distribution in the cube due to the gravity field. For what value(s) of the Poisson's ration the cube will not change its lateral dimensions? gravity
A cubic block of side lengths h and mass...
A block that is a m square slides from left to right across a flat plate on a thin film of oil. The oil has viscosity μ N·s/m2 and the film is h m thick. The block of mass M kg moves at steady speed U m/s under the influence of constant force F N. (a) Find the magnitude of the shear stresses on the bottom of the block. Indicate the direction of the shear stresses on the bottom of...
The H-beam is made of an elastic-plastic material for which σy =
400 MPa. Find the plastic moment Mp and the maximum elastic moment
Me and determine the shape factor for the cross section of the
H-beam. Also, determine the residual stresses in the top and bottom
of the beam after the plastic moment MP is applied and then
released.
Question 4 a The H-beam is made of an elastic-plastic material for which oy 400 MPa. Find the plastic moment...
(a) The H-beam is made of an elastic-plastic material for which
σy = 400 MPa. Find the plastic moment Mp and the maximum elastic
moment Me and determine the shape factor for the cross section of
the H-beam. Also, determine the residual stresses in the top and
bottom of the beam after the plastic moment MP is applied and then
released.
(b) The continuous beam shown in Figure is made of the same
cross section as in part a and...
5. A2 kg block is dropped from a height of 0.4 m unto a spring whose force constant k is 1960 N/m. Find the maximum compression of the spring. 6. A 10 kg body is forced against a horizontal elastic spring compressing it an amount of 0.5 m. When the body was released, it moves on a horizontal surface a distance of 3 m before coming to rest. The force constant of the spring is 500 N/m. What is the...
l missed an important information about block. So I upload
again my question... please solve (3) and (4). I f I use a program
to solve it, please teach me the name of program and the method.
please teach me in detail. thank you :)
a rectangular shape Aluminum block(L=10mm, D=3mm) has well
insulated top and bottom. The left surface has thermal boundary
condition, and the right surface has convection boundary
condition.
* the surface temperature Ts=100℃, the ambient air...
3. This problem revisits the question from Problem Set I about finding the dimensions of a one-liter can that will have the minimum cost. We will now approach it using calculus methods. In class, we found the dimensions of a right circular cylinder (a “can") that has a volume of 1,000 cm3 using the minimum possible material. This assignment changes that problem slightly by seeking the minimum cost for a right circular cylinder whose volume is 1,000 cm3 where the...
Part B Calculate the load II Review A square steel bar has a length of 2.2 ft and a 1.5 in by 1.5 in cross section and is subjected to axial compression. Under load, the thickness becomes 1.50032 in . If the modulus of elasticity is E = 2.9x 104 ksi and Poisson's ratio is v = 0.31; what is the magnitude of the load that was applied to the bar? Learning Goal To use Poisson's ratio and Hooke's law...
Assignment:-GCA-CH07A work-KE Theory Pg12 SCALE-UP Table: Station: A block of mass M is launched up a rough plane that makes an angle θ with the horizontal by placing (not attached) it against a massless spring compressed by a distance d and releasing it from rest (see "Initial stage" in the figure at right). The block slides a distance L (>d) up the plane and comes off the plane with an unknown speed v (see "Final stage" in the figure at...