A 24 kg chimpanzee hangs from the end of a horizontal, broken branch of length L0 = 1.1 m , as shown in the figure(Figure 1). The branch is a uniform cylinder 4.1 cm in diameter, and the end of the branch supporting the chimp sags downward through a vertical distance Δx = 11 cm . What is the shear modulus for this branch?
A 24 kg chimpanzee hangs from the end of a horizontal, broken branch of length L0...
A 25 kg chimpanzee hangs from the end of a horizontal, broken branch of length L0 = 1.4 m , as shown in the figure(Figure 1). The branch is a uniform cylinder 4.3 cm in diameter, and the end of the branch supporting the chimp sags downward through a vertical distance Δx = 16 cm . What is the shear modulus for this branch?
A 20 kg chimpanzee hangs from the end of a horizontal, broken branch of length Lo = 1.4 m, as shown in the figure(Figure 1). The branch is a uniform cylinder 4.5 cm in diameter, and the end of the branch supporting the chimp sags downward through a vertical distance Ac = 13 cm. Part A What is the shear modulus for this branch? Express your answer using two significant figures. AEQ R O 2 ? N/m2 Figure < 1...
A horizontal aluminum rod 2.8 cm in diameter projects 6.5 cm from a wall. A 1300 kg object is suspended from the end of the rod. The shear modulus of aluminum is 3.0·1010 N/m2. Neglecting the rod's mass, find (a) the shear stress on the rod and(b) the vertical deflection of the end of the rod. I got part A at 2.1*10^7 but can not get part B. I came up with the answer of 4.1*10^-5 m but that is...
A uniform board of length 2.40 m and mass 4.00 kg is pivoted at one end and has a rope attached at the other end, as shown in the figure below. A bucket of mass 2.00 kg is suspended 40.0 cm from the rope. Find: (a) the tension in the rope; (b) the horizontal and vertical forces exerted by the pivot.
A 230 kg crate hangs from the end of a rope of length L = 12.0 m. You push horizontally on the crate with a varying force F to move it distance d = 4.00 m to the side. (a) What is the magnitude of F when the crate is in this final position? During the crate's displacement, what are (b) the total work done on it, (c) the work done by the gravitational force on the crate, and (d)...
A 227 kg crate hangs from the end of a rope of length L = 12.0 m. You push horizontally on the crate with a varying force F→ to move it distance d = 4.84 m to the side (see the figure). (a) What is the magnitude of F→ when the crate is in this final position? During the crate's displacement, what are (b) the total work done on it, (c) the work done by the gravitational force on the...
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...
One end of a light spring with force constant 240 N/m is attached to a vertical wall. A light string is tied to the other end of the horizontal spring. As shown in the following figure, the string changes from horizontal to vertical as it passes over a solid pulley of mass M in the shape of a solid disk of radius R 2.50 cm. The pulley is free to turn on a fixed smooth axle. The vertical section of...
Problem 9.18 A shop sign weighing 195 N hangs from the end of a uniform 155-N beam as shown in (Figure 1). Part A Find the tension in the supporting wire (at 35.0 Express your answer to three significant figures and include the appropriate units. F- Value N Submit Previous Answers B est Answer * Incorrect; Try Again: 5 attempts remaining 1 of 1 Figure - Part B Enterpo Find the horizontal force escorted by the Nirge on the beam...
See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above! the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 WT 1173337 a)...