Problem 4: Draw a graph of tensile or compressive forces and stresses and calculate the total deformation of a square steel bar with the given data l=4m, b=20mm, F=5000N and E=210Gpa for the following case:
Solution: Below is the Solution of this Solid Mechanics problem. You may download the solution:
Problem 3: Draw a graph of tensile or compressive forces and stresses and calculate the total deformation of a square steel bar with the given data l=4m, b=20mm, F=5000N and E=210Gpa for the following case:
Solution: Below is the Solution of this Solid Mechanics problem. You may download the solution:
Problem 2: Draw a graph of tensile or compressive forces and stresses and calculate the total deformation of a square steel bar with the given data: l=4m, b=20mm, F=5000N and E=210Gpa for the following case:
Solution: Below is the solution of this Solid Mechanics problem. You may download the solution
Problem 1: Draw a graph of tensile or compressive forces and stresses and calculate the total deformation of a square steel bar with the given data l=4m, b=20mm, F=5000N and E=210Gpa for the following case
Solution: Below is the solution of this Solid Mechanics problem. You may download the solution:
Calculate the total deformation due to gravity of a homogeneous rod with length l, made of material with density ρ and young’s modulus E.
Solution: Below is the Solution of this Solid Mechanics problem. You may download the solution
Calculate the tensile stress , total deformation and relative strain of a Dural bar Of length l=5m and diameter d=5mm tensioned by a force F=1000N. Young modulus for Dural is E=72GPa
Solution: Below is the solution of this Strength of Materials/ Solid Mechanics problem. You may download the solution
Find the Area, Centroid, Second Moment of Area, Polar Second moment of Area, Product moment of Area and Principal Axes of the inverted T section given, using integration method.
Solution: Below is the solution of this problem. You may download the Solution
Find the Area, Centroid, Second Moment of Area, Polar Second moment of Area, Product moment of Area and Principal Axes of the I section given, using Integration method only
Solution: Below is the solution of this problem. You may download the solution
Oil with a viscosity of 0,6×10-4 m2/s is delivered from a pump to a lubricated sliding surface through a tube with a diameter d 0,01m and a length l 6m. For what pressure difference will a volume flow rate of 50 cm^3/s be provided?
Solution: Below is the solution of this problem. You may download or view the solution
Determine the flow rate QV of water using a Venturi nozzle with dimensions D 100mm, d 50mm inserted into a horizontal pipe through which water flows, if the pressure difference between the inlet to the nozzle and the throat is H = 50mm.
Solution: Below is the solution of this problem. You may download or view the solution
