MATERIAL HAS SIGMA F = 220 MPa, E = 200 GPa, Poisson's ratio v = 0.3, and alpha = 12 x 10^-6 /degrees C
MATERIAL HAS SIGMA F = 220 MPa, E = 200 GPa, Poisson's ratio v = 0.3,...
In all the questions below, the material is structural steel
with σf = 220 MPa, E = 200 GPa, ν = 0.3, and α = 12×10-6
/℃.
Question 3 The circular steel rod (D = 0.1 m) in Figure 3 is constrained by end plates and is subjected to axial load P. Calculate: 1. The internal reaction in AB 2. The internal reaction in BC 3. The maximum value for P for the rod to carry the load with a...
the material is structural steel with σf = 220 MPa, E = 200 GPa,
ν = 0.3, and α = 12x10-6/oC.
please have correct answers
The steel shaft AD is subjected to the torques shown in Figure 2. Calculate: 1. The internal reaction in AB 2. The internal reaction in BC 3. The internal reaction in CD 4. The maximum shaft diameter consistent with a safety margin of 50% (Tresca's criteria) 5. If points A, B, C and D are...
the material is structural steel with σf = 220 MPa, E = 200 GPa,
ν = 0.3, and α = 12x10-6/oC. please help, provide clear and correct
answers
The cylindrical steel pressure vessel (Figure 3) has diameter D = 20 cm and thickness t=1 cm. Calculate: 1. The maximum pressure P for Tresca's criteria to yield a safety margin of 50% 2. The axial stress Ox that results from the pressure P 3. The hoop stress ge that results from...
In all the questions below, the material is structural steel with or= 220 MPa, E = 200 GPa, v=0.3, and a = 12x10-6/°C. Question 1 The steel shaft in Figure 1 is subjected to the torques shown. Calculate: 1. The maximum torque (Tmax) that can be applied for the shaft to operate with a safety margin of 30% (Tresca). 2. The resulting angle of twist of plane B relative to A 3. The resulting angle of twist of plane C...
In all the questions below, the material is structural steel with or= 220 MPa, E = 200 GPa, v=0.3, and a = 12x10-6/°C. Question 1 The steel shaft in Figure 1 is subjected to the torques shown. Calculate: 1. The maximum torque (Tmax) that can be applied for the shaft to operate with a safety margin of 30% (Tresca). 2. The resulting angle of twist of plane B relative to A 3. The resulting angle of twist of plane C...
Please provide a correct answer to these questions.
The material is structural steel with of = 220 MPa, E = 200 GPa, v = 0.3, and a = 12x10-6 / 0 C The steel rod (Figure 1) is constrained between two rigid surfaces. It has a diameter D = 20 mm and is subjected to load P = 20 kN. Consider the following value below The reaction at 'A' = 13.13 KN(t) The reaction at 'B' = 6.67 KN(t) The...
σf = 220 MPa, E = 200 GPa, ν = 0.3, and α = 12×10-6/°C
Find the maximum torque with a 30% safety margin using
Tresca
Calculate the resulting angle of twist of plane B relative to A,
C relative to B, and C relative to A
Calculate σ1 and σ2 in AB
Find the change in length of BC if ΔT = +100°C
-4T +T A 0.5 m B. 0.2 m Go С X X 1 m 1 m
A strip of high-strength steel has a length of 30 cm and a cross-section mm. The modulus of elasticity is 200 GPa, and Poisson's ratio is 0.27. It is subjected to axial load of 15,000 N, and is instrumented with 120 Ohm resistors in a half-bridge configuration. The supply voltage is 5 volts and the gage factor is 2. Find the output voltage in mv. of 1 by 20 mm 2-
A strip of high-strength steel has a length of...
Problem 3 Three steel rods (with E-200 GPa, Cla = 1 1.7x10-6/oC) support a 45 kN load P. Each of the rods AB and CD has a 200 mm cross-sectional area, and rod EF has a 575 mm2 cross sectional area. The horizontal bar BED may be treated as rigid. The distance BE along the horizontal bar from pin B to pin E is 450 mm, and the distance ED along the horizontal bar from pin E to pin D...
a cylindrical tank is made from A-36
OBLEM 2: The cylindrical tank is made from A-36 steel with a yield strength ayie 250 MPa, modulus ef elasticity &-200 GPa and Poisson's ratio v 0.3. When the tank is pressuri pressure p, a 60 strain rosette mounted on the surface measures the following strains: & 100(10), 343(10), maximum-distortion-energy theory, to determine the factor of safety against yielding (c) Find the internal pressure p acting within the tank. (30 Points) 343(10) Use...