Answered: 40.0° K 2.0 m 30.0°

Science

Advanced Physics

40.0° K 2.0 m 30.0°

Similar questions

A sign is supported by a uniform horizontal boom of length 3.10 m and weight 72.0 N. A cable, inclined at an angle of 16 °with the boom, is attached at a distance of 2.71 m from the hinge at the wall. The weight of the sign is 108.0 N. What is the tension in the cable and what are the horizontal and vertical forces Fx and Fy exerted on the boom by the hinge? Comment on the magnitude of Fy. T= In N Fx= in N Fy= in N The magnitude of Fy is select (small or large) compared to that of Fx and T.
A uniform beam of length 1.0 m and mass 20 kg is attached to a wall by a cable as shown in (Figure 1). The beam is free to pivot at the point where it attaches to the wall. What is the tension in the cable?
A uniform beam of length L possesses a mass of 50.99 kg. The beam is attached by a fixed support to a rigid wall, and is supported by a cable anchored to a second point on the wall, as shown here. The cable is attached to the beam at a distance of 40% of the total length L from the wall, and makes an angle of 35º from the vertical. The cable has a circular cross- section and a radius of 0.750 cm. a. Draw a free-body diagram. b. Write and develop all applicable state equations. c. Determine the amount of tensile force on the cable. d. Determine the magnitude and direction of the x and y components of the force at the fixed support e. Determine the magnitude and direction of the resultant force at the fixed support. f. Determine the stress on the cable.
A 1220N uniform boom is supported by a cable perpendicular to the boom, as seen in the figure below. The boom is hinged at the bottom, and an m=2120N weight hangs from its top. Assume the angles to be a=60.7deg and 0=(90.0°- a). Ꮎ Ө ja m Find the tension in the supporting cable. Submit Answer Tries 0/10 Find the x-components of the reaction force exerted on the boom by the hinge (choose to the right as positive). Submit Answer Tries 0/10 Find the y-components of the reaction force exerted on the boom by the hinge (choose upwards as positive). Submit Answer Tries 0/10
A 520-N uniform rectangular sign 4.00 m wide and 3.00 m high is suspended from a horizontal, 6.00-m-long, uniform, 110-N rod as indicated in the figure below. The left end of the rod is supported by a hinge and the right end is supported by a thin cable making a 30.0° angle with the vertical. (Assume the cable is connected to the very end of the 6.00-m-long rod, and that there are 2.00 m separating the wall from the sign.) A rectangular sign hangs along the bottom of a rod connected to a hinge on a wall on its left. A cable with tension T at the right end of the rod connects to the wall above the hinge and makes a 30.0° angle with the vertical. The right end of the sign is at the right end of the rod.(a) Find the (magnitude of the) tension T in the cable. N (b) Find the horizontal and vertical components of the force exerted on the left end of the rod by the hinge. (Take up and to the right to be the positive directions. Indicate the direction with the sign of your answer.)
A uniform beam (weight 80 N, length 6 meters) is being supported by cable and a hinge on a wall. The cable is attached to the beam for meters from the hinge. A 100 Newton sign hangs off the end of the beam. Determine the tension and the cable buy some in the talks about the hinge.
A uniform, 8.00 m, 1150kg beam is hinged to a wall and supported by a thin cable attached to a 2.00 m from the free end of the beam as shown. Find the tension in the thin cable. Do not forget the force of gravity on the beam. b) How hard does the beam push inward on the wall? what is the horizontal force on the beam from the wall?
A 400-N uniform rectangular sign 4.00 m wide and 3.00 m high is suspended from a horizontal, 6.00-m-long, uniform, 120-N rod as indicated in the figure below. The left end of the rod is supported by a hinge and the right end is supported by a thin cable making a 30.0° angle with the vertical. (Assume the cable is connected to the very end of the 6.00-m-long rod, and that there are 2.00 m separating the wall from the sign.) (a) Find the (magnitude of the) tension T in the cable.=_______N (b) Find the horizontal and vertical components of the force exerted on the left end of the rod by the hinge. (Take up and to the right to be the positive directions. Indicate the direction with the sign of your answer.) HORIZONTAL COMPONENT= _________N VERTICAL COMPONENT= _________N
A uniform beam of weight 13 N and length 6.0 m is mounted by a small hinge on a wall at it left end. The beam is held in a horizontal position by a vertical rope at the location as shown. What is the magnitude of the tension force in the rope, in Newtons? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.
Please asap
The boom in the figure below (Figure 1) weighs 2600 N and is attached to a frictionless pivot at its lower end. It is not uniform; the distance of its center of gravity from the pivot is 37% of its length. A) Make a free-body diagram of the boom. The boom attaches to the building at dot A. The center of gravity of the boom is indicated by dot B. The guy wire attaches to the boom and holds the load at dot C. Draw the vectors starting at the black dots. The location and orientation of the vectors will be graded. The length of the vectors will not be graded. Positive torque is considered to be in the counterclockwise direction. B) Find the tension in the guy wire. Express your answer in newtons. C) Find the horizontal component of the force exerted on the boom at its lower end. Express your answer in newtons. D) Find the vertical component of the force exerted on the boom at its lower end. Express your answer in newtons.
Hi I needed help with this question. As shown in the figure below, a uniform beam is supported by a cable at one end and the force of friction at the other end. The cable makes an angle of ? = 30°, the length of the beam is L = 2.00 m, the coefficient of static friction between the wall and the beam is ?s = 0.600 and the weight of the beam is represented by w. Determine the minimum distance x from point A at which an additional weight 2w (twice the weight of the rod) can be hung without causing the rod to slip at point A. X=?