Determine the deflection of end B of the cantilever beam. EI is constant. (Figure 1)
Part A
Determine the deflection of end B of the cantilever beam. EI is constant. (Figure 1)
Homework Answers
Add Answer to:
Determine the deflection of end B of the cantilever beam. EI is constant. (Figure 1)
Determine the slope at A in the beam. EI is constant.(Figure 1)
Part ADetermine the slope at A in the beam. EI is constant.(Figure
1)Part BDetermine the maximum deflection in the beam. EI is
constant.
1.A cantilever AD is subjected to a pure moment wa at B and uniformly distributed load of intensity w along AB and BC and as shown in Figure 1. The beam has constant EI. Ignore the weight of the bean...
1.A cantilever AD is subjected to a pure moment wa at B and uniformly distributed load of intensity w along AB and BC and as shown in Figure 1. The beam has constant EI. Ignore the weight of the beanm (a)Determine the reaction forces at the fixed end D. (6 marks) (b) Express the elastic curve of the beam in terms of EI, w, a and x. (14 marks) (c)Determine the allowable intensity w if the deflection at A is...
4. Determine the slope and deflection at end point C of the cantilever beam shown in...
4. Determine the slope and deflection at end point C of the cantilever beam shown in the figure. Use E = 200 GPa, I = 10 x 106 mm 3 kN/m 2 kN.m A B 2 m 2 m
EI constant For the beam shown, use the Conjugate Beam Method to determine a) The deflection...
EI constant
For the beam shown, use the Conjugate Beam Method to determine a) The deflection at F, b) The slopes on both sides of the hinge at C. 90 kN 160 kN.m E B с D F 2 m 2 m 2 m 2 m 2 m
A cantilever beam of length L and constant EI carries a concentrated load P at a...
A cantilever beam of length L and constant EI carries a
concentrated load P at a distance of L/4 from the free end. Use any
method that you chose to develop an expression for the deflection
of the free end. VEI = ?
Loading Loading Function wwx) Shear V /w(xdx Moment M-Vax 1/4 M = M-a) V-M, M-M V-a) N-P) 03 V- M- (3 shop
For the cantilever beam and loading shown, determine the slope and deflection at end C. Use...
For the cantilever beam and loading shown, determine the slope and deflection at end C. Use E= 28 × 106 psi. 125 lb 15 lb/in. 1.75 in. |A 30 in. 10 in. x 10-3 The slope at end Cis rad. * in. Į The deflection at end Cis
For the cantilever beam and loading shown, determine the slope and deflection at point B. Use...
For the cantilever beam and loading shown, determine the slope and deflection at point B. Use E = 32 x 106 psi. 125 lb 15 lb/in 1.75 in B 30 in 10 in. The slope at end Bis x 107 rad. The deflection at end B is in.
For the steel beam shown in the figure, compute the slope at A and C. Also, determine the location and value of the maximum deflection. If the maximum deflection is not to exceed 0.6 i...
For the steel beam shown in the figure, compute the slope at A and C. Also, determine the location and value of the maximum deflection. If the maximum deflection is not to exceed 0.6 in, what is the minimum required value of I? El is constant and E= 29000 ksi We were unable to transcribe this imageCompute the slope of the elastic curve at B and C and the deflection at C for the cantilever beam shown in the figure....
Elastic curve d²v M = EI dr? The deflection equation of the above cantilever beam is...
Elastic curve d²v M = EI dr? The deflection equation of the above cantilever beam is et (L? - 2) ein (-2+ + 3 Lºz – 21) o
For the beam shown, EI is constant. (Figure 1) Part A Determine the horizontal reaction at...
For the beam shown, EI is constant. (Figure 1) Part A Determine the horizontal reaction at support A. Express your answer as an expression in terms of the variables a and Mo and any necessary constants. Submit Request Answer Part B Determine the vertical reaction at support A Express your answer as an expression in terms of the variables a and Mo and any necessary constants. ΑΣφ Figure < 1011 Submit Request Answer Part
Part ADetermine the slope at A in the beam. EI is constant.(Figure
1)Part BDetermine the maximum deflection in the beam. EI is
constant.
1.A cantilever AD is subjected to a pure moment wa at B and uniformly distributed load of intensity w along AB and BC and as shown in Figure 1. The beam has constant EI. Ignore the weight of the beanm (a)Determine the reaction forces at the fixed end D. (6 marks) (b) Express the elastic curve of the beam in terms of EI, w, a and x. (14 marks) (c)Determine the allowable intensity w if the deflection at A is...
4. Determine the slope and deflection at end point C of the cantilever beam shown in the figure. Use E = 200 GPa, I = 10 x 106 mm 3 kN/m 2 kN.m A B 2 m 2 m
EI constant
For the beam shown, use the Conjugate Beam Method to determine a) The deflection at F, b) The slopes on both sides of the hinge at C. 90 kN 160 kN.m E B с D F 2 m 2 m 2 m 2 m 2 m
A cantilever beam of length L and constant EI carries a
concentrated load P at a distance of L/4 from the free end. Use any
method that you chose to develop an expression for the deflection
of the free end. VEI = ?
Loading Loading Function wwx) Shear V /w(xdx Moment M-Vax 1/4 M = M-a) V-M, M-M V-a) N-P) 03 V- M- (3 shop
For the cantilever beam and loading shown, determine the slope and deflection at end C. Use E= 28 × 106 psi. 125 lb 15 lb/in. 1.75 in. |A 30 in. 10 in. x 10-3 The slope at end Cis rad. * in. Į The deflection at end Cis
For the cantilever beam and loading shown, determine the slope and deflection at point B. Use E = 32 x 106 psi. 125 lb 15 lb/in 1.75 in B 30 in 10 in. The slope at end Bis x 107 rad. The deflection at end B is in.
For the steel beam shown in the figure, compute the slope at A and C. Also, determine the location and value of the maximum deflection. If the maximum deflection is not to exceed 0.6 in, what is the minimum required value of I? El is constant and E= 29000 ksi We were unable to transcribe this imageCompute the slope of the elastic curve at B and C and the deflection at C for the cantilever beam shown in the figure....
Elastic curve d²v M = EI dr? The deflection equation of the above cantilever beam is et (L? - 2) ein (-2+ + 3 Lºz – 21) o
For the beam shown, EI is constant. (Figure 1) Part A Determine the horizontal reaction at support A. Express your answer as an expression in terms of the variables a and Mo and any necessary constants. Submit Request Answer Part B Determine the vertical reaction at support A Express your answer as an expression in terms of the variables a and Mo and any necessary constants. ΑΣφ Figure < 1011 Submit Request Answer Part
Most questions answered within 3 hours.
-
Mr. and Mrs. Brown report taxable income of $130,000 in 2018. In
addition, they report the...
asked 16 minutes ago -
You capture data by having 8 people fill in 30 small dots on a
piece of...
asked 4 hours ago -
What are the z-values such that 70% of the area lies in the
middle of the...
asked 6 hours ago -
You borrow $29,500 to purchase a brand new car. The interest
rate is 6%, and the...
asked 5 hours ago -
The amount of time it takes an asteroid, whose average distance
from the Sun is 4.70...
asked 5 hours ago -
A 0.289 kg mass slides on a frictionless floor with a speed of
1.34 m/s. The...
asked 5 hours ago -
15.A box contains five red balls, three green balls, and two
yellow balls. Suppose you select...
asked 8 hours ago -
Assume you are given the following for Stackelberg industries:
Return on Assets (ROA) = 8%
Debt...
asked 7 hours ago -
an engineer proposes to use mmWave in 5G network to
increase data rate.
What are the...
asked 7 hours ago -
Explain the idea behind using SEMIJOIN in distributed
query processing.
asked 7 hours ago -
why
is context important in selecting and applying guidelines and
principles for interface design?
illustrate your...
asked 7 hours ago -
In a certain board game, a player rolls two fair six-sided dice
until the player rolls...
asked 8 hours ago