A uniform horizontal beam OA, of length a and
weight w per unit length, is clamped horizontally
at O and freely supported at A. The transverse
displacement y of the beam is governed by the
differential equation
where x is the distance along the beam measured
from O, R is the reaction at A, and E and I are
physical constants. At O the boundary conditions
are y(0) = 0 and . Solve the
differential equation. What is the boundary
condition at A? Use this boundary condition to
determine the reaction R. Hence find the maximum
transverse displacement of the beam.
How to answer this question without using MATLAB?
Homework Answers
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A uniform horizontal beam OA, of length a and weight w per unit length, is clamped horizontally at O and freely supporte...
1. A uniform horizontal beam OA, of length a and weight w per unit length, is...
1. A uniform horizontal beam OA, of length a and weight w per unit length, is clamped horizontally at O and freely supported at A. The transverse displacement y of the beam is governed by the differential equation d2y El dx2 w(a x)- R(a - x) where x is the distance along the beam measured from O, R is the reaction at A, and E and I are physical constants. At O the boundary conditions are dy (0) = 0....
3. Determine the shape of the deflection curve of a uniform horizontal beam of length L and weight per unit length...
3. Determine the shape of the deflection curve of a uniform horizontal beam of length L and weight per unit length w that is fixed (horizontally) at the right end a1 and simply supported at the left end z = 0.
3. Determine the shape of the deflection curve of a uniform horizontal beam of length L and weight per unit length w that is fixed (horizontally) at the right end a1 and simply supported at the left end z...
the shape of the deflection curve of a uniform horizontal beam of length I 5 and weight per unit length w that is s...
the shape of the deflection curve of a uniform horizontal beam of length I 5 and weight per unit length w that is simply supported at both ends z 0 and
the shape of the deflection curve of a uniform horizontal beam of length I 5 and weight per unit length w that is simply supported at both ends z 0 and
3. A uniform horizontal beam of length 8.00m and weight 150N is attiched to a wail...
3. A uniform horizontal beam of length 8.00m and weight 150N is attiched to a wail by a pin connection. Its 47.0P with the far end is supported by a cable that makes an angle of horizontal. A 700 N man stands 2.00m from the wall. (4pts) a) Draw a free body diagram for the beam (6pts) b) Determine the tension in the cable. (6pts) c) Determine the horizontal and vertical components of the reaction force exernte by the wall...
A drum of weight 200 N is supported by a beam of length s, weight W...
A drum of weight 200 N is supported by a beam of length s, weight W and a rope of length r. The mass per unit length of the beam is uniform. If the force exerted on the beam by the hinge is 200 N and acts at an angle of 25 above the horizontal then the tension in the cable of length r is TV zoo (a) 224 N (b) 79 N (c) 105 N (d) 338 N
A uniform horizontal beam with a length l = 8.00 m and weight of Wb =...
A uniform horizontal beam with a length l = 8.00 m and weight of Wb = 200 N is attached to a wall by a pin connection. Its far end is supported by a cable that makes an angle of θ = 53.0◦ with the beam. A person of weight Wp = 600 N stands a distance d = 2.00 m from the wall. Find the tension in the cable.
A uniform horizontal beam of length 8 m and weight 200 N is attached to a...
A uniform horizontal beam of length 8 m and weight 200 N is attached to a wall by a pin connection that allows the beam to rotate. Its far end is supported by a cable that makes an angle of 53degree with the horizontal. If a cable is strong enough to withstand T= 1200 N how heavy person can walk to the end of the beam? When that person was at the 0.75 distance from the wall, find: a. the...
A uniform slender rod of length 42 in, and weight 4.6 lb hangs freely from a...
A uniform slender rod of length 42 in, and weight 4.6 lb hangs freely from a hinge at A. A force P of magnitude 1.5 lb is applied t B horizontally to the left( 4 L. eBook & Resources 2. Required information 10.00 points Determine the components of the reaction at A. (Round the final answer to two decimal places.) The vertical component is lb t and the horizontal component is
ans all parts please 15) (10 Points) Consider a horizontal beam of length L. with uniform...
ans all parts please
15) (10 Points) Consider a horizontal beam of length L. with uniform cross-section and made out of uniform material. It is resting on the x-axis, with one end at the origin. It is acted upon by a vertical force it's own weight in this simple version). The deflection of the beam at any point x,for 0 <=<L.is given by Ely) = w, where E, I, ware constants. E is the Young's modulus of elasticity of the...
Problem 2: Hanging cable A cable of uniform mass per unit length p(x)-ρ constant, hangs freely fr...
Problem 2: Hanging cable A cable of uniform mass per unit length p(x)-ρ constant, hangs freely from the ceiling as shown in the figure. Assume that the cable possesses no flexural stiffness. Derive the equation of motion for small horizontal vibrations y(x, t) of the cable as well as the associated boundary conditions.
Problem 2: Hanging cable A cable of uniform mass per unit length p(x)-ρ constant, hangs freely from the ceiling as shown in the figure. Assume that the...
1. A uniform horizontal beam OA, of length a and weight w per unit length, is clamped horizontally at O and freely supported at A. The transverse displacement y of the beam is governed by the differential equation d2y El dx2 w(a x)- R(a - x) where x is the distance along the beam measured from O, R is the reaction at A, and E and I are physical constants. At O the boundary conditions are dy (0) = 0....
3. Determine the shape of the deflection curve of a uniform horizontal beam of length L and weight per unit length w that is fixed (horizontally) at the right end a1 and simply supported at the left end z = 0.
3. Determine the shape of the deflection curve of a uniform horizontal beam of length L and weight per unit length w that is fixed (horizontally) at the right end a1 and simply supported at the left end z...
the shape of the deflection curve of a uniform horizontal beam of length I 5 and weight per unit length w that is simply supported at both ends z 0 and
the shape of the deflection curve of a uniform horizontal beam of length I 5 and weight per unit length w that is simply supported at both ends z 0 and
3. A uniform horizontal beam of length 8.00m and weight 150N is attiched to a wail by a pin connection. Its 47.0P with the far end is supported by a cable that makes an angle of horizontal. A 700 N man stands 2.00m from the wall. (4pts) a) Draw a free body diagram for the beam (6pts) b) Determine the tension in the cable. (6pts) c) Determine the horizontal and vertical components of the reaction force exernte by the wall...
A drum of weight 200 N is supported by a beam of length s, weight W and a rope of length r. The mass per unit length of the beam is uniform. If the force exerted on the beam by the hinge is 200 N and acts at an angle of 25 above the horizontal then the tension in the cable of length r is TV zoo (a) 224 N (b) 79 N (c) 105 N (d) 338 N
A uniform horizontal beam of length 8 m and weight 200 N is attached to a wall by a pin connection that allows the beam to rotate. Its far end is supported by a cable that makes an angle of 53degree with the horizontal. If a cable is strong enough to withstand T= 1200 N how heavy person can walk to the end of the beam? When that person was at the 0.75 distance from the wall, find: a. the...
A uniform slender rod of length 42 in, and weight 4.6 lb hangs freely from a hinge at A. A force P of magnitude 1.5 lb is applied t B horizontally to the left( 4 L. eBook & Resources 2. Required information 10.00 points Determine the components of the reaction at A. (Round the final answer to two decimal places.) The vertical component is lb t and the horizontal component is
ans all parts please
15) (10 Points) Consider a horizontal beam of length L. with uniform cross-section and made out of uniform material. It is resting on the x-axis, with one end at the origin. It is acted upon by a vertical force it's own weight in this simple version). The deflection of the beam at any point x,for 0 <=<L.is given by Ely) = w, where E, I, ware constants. E is the Young's modulus of elasticity of the...
Problem 2: Hanging cable A cable of uniform mass per unit length p(x)-ρ constant, hangs freely from the ceiling as shown in the figure. Assume that the cable possesses no flexural stiffness. Derive the equation of motion for small horizontal vibrations y(x, t) of the cable as well as the associated boundary conditions.
Problem 2: Hanging cable A cable of uniform mass per unit length p(x)-ρ constant, hangs freely from the ceiling as shown in the figure. Assume that the...
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