A uniform ladder of mass 10 kg leans against a smooth vertical wall making an angle of 53° with it. The other end rests on a rough horizontal floor. Find the normal force and the frictional force that the floor exerts on the ladder.
Q: A ladder of length L is leaning on a frictionless wall at 53 degrees to horizontal. The ladder is of…
A:
Q: The system shown is in equilibrium. A mass of 122 kg hangs from the end of a strut, which is…
A: Given:- A concrete block of mass m = 12 kg hangs from the end of a strut The ground and makes an…
Q: The ladder and the person weigh 30N and 180N, respectively. The center of mass of the 12-m ladder is…
A:
Q: on the floor. (a) What is the tension in the rope? (b) What is the magnitude of the force that the…
A: The mass of the plank m1 =20 kg the length of the plank L = 10 m A 50.0-kg mass person stands on…
Q: uniform ladder 3.50m long with a mass of 45.0kg is placed against a wall so that it makes an angle…
A: For equilibrium of object net force as well as net torque must be zero
Q: A uniform 325 N ladder rests against a smooth wall, making angle 52° with the wall. What is the…
A:
Q: A uniform 34.0-kg beam of length equal to 4.55 m is supported by a vertical rope located 1.20 m from…
A: Given information: Mass of the uniform beam m=34.0 kg. Length of the uniform beam l=4.55 m.…
Q: A uniform ladder of length L and weight w is leaning against a vertical wall. The coefficient of…
A: From figure at equilibrium we have,
Q: A stationary 3.0-m board of mass 7.0 kg is hinged at one end. A force F is applied vertically at the…
A: First we draw the Freebody diagram, From the diagram it is clear that torque is zero, so,
Q: A uniform ladder of length L and weight w is leaning against a vertical wall. The coefficient of…
A: Since you have posted multiple questions, we will solve the first one only as per the Q&A…
Q: A scaffold of mass 50 kg and length 4.8 m is supported in a horizontal position by a vertical cable…
A:
Q: A horizontal beam weighs 451 N, and its center of gravity is at its center. Find the vertical…
A:
Q: (c) For the ladder to be in mechanical equilibrium: (i) (ii) Write down equations for the total x-…
A: “Since you have posted a question with multiple sub parts, we will provide the solution only to the…
Q: Consider a rigid steel beam of length L = 11.5 m and mass mb = 405 kg resting on two supports, one…
A: Write the force balance equilibrium equation for the given system and substitute the known values.
Q: A block with a mass of m = 1.5 kg rests on a wooden plank. The coefficient of static friction…
A: The gravitational force acting on the object with mass m=1.5 kg can be resolved into vertical and…
Q: A 53.9 kg, 4.7 m uniform ladder leans against a frictionless wallA 81.9 kg person is standing on the…
A:
Q: A uniform 37.0 kg scaffold of length 5.8 m is supported by two light cables, as shown below. A 78.0…
A: Solution: Let tension in the right cable be T and tension in the left cable is 2T. The system is in…
Q: 3. A uniform beam of length L and mass of m, is pinned at one end and is being supported by a wire…
A:
Q: A uniform beam of mass 0.250 kg and length 3.00 m rests on a smooth floor and leans against a rough…
A: Analyze the following diagram. For the beam to be in equilibrium, Here, F and Nw represent the…
Q: Draw a diagram indicating all the forces acting on the ladder, and state what each force represents.…
A: Length of the ladder is Mass of the ladder is The angle between the ladder and the horizontal is The…
Q: A horizontal plank 4.00 m long and having mass 20.0 kg rests on two supports, one at the left end…
A: Given the mass of the object = m = 20.0 kgthe length of the plank = L = 4.00m one support at the…
Q: beam of weight 1500 N is hinged at one end to the wall. The beam makes an angle of 37° with e wall.…
A: Weight of the beam( W) = 1500 N
Q: In the figure, one end of a uniform beam of weight 240 N is hinged to a wall; the other end is…
A: Given Data : The uniform beam weight is given as W = 240N. The angle made by the wire with the beam…
Q: Consider a 5.00m long ladder, with a mass of 25.0kg that can be approximated as uniformly…
A:
Q: A uniform horizontal beam 10.0 m long and a mass of 82 kg is attached to support cables on either…
A:
Q: A uniform ladder of length L and mass m1 rests against a frictionless wall. The ladder makes an…
A: In this problem, Draw free body diagram of this ladder as per given in question.
Q: A pole, 10.00 meters long is attached at one end by a hinge to a wall. A mass is attached to the…
A: The length of the pole: L=10.00 m The distance of the mass from the wall: x=8.00 m The weight of the…
Q: A 10 m long ladder with mass of 20 kg rests against a smooth wall at height of 8 m at an inclination…
A: Given:- The length of the ladder L = 10 m The height of the wall is h = 8 m The mass of the ladder…
Q: A uniform ladder of length 1 rests against a vertical wall with a coefficient of friction wall 0.3.…
A: Hh
Q: A uniform 22 kg beam, 3.0 m long, is attached to a wall on the left by a hinge, and is supported by…
A:
Q: A person with a 800 N weight is standing 2 meters from the left of a five meter wide uniform plank…
A: Length of the beam = 5 mWeight of the beam Weight of the person
Q: 130,3°
A:
Q: (a) A man stands a distance d = 0.250 m from the left end of a board as shown in the figure. The…
A:
Q: A uniform ladder 10.o m long weighing 50.0 N rests against a smooth wall (no frictional force…
A:
Q: A scaffold of mass 47 kg and length 5.0 m is supported in a horizontal position by a vertical cable…
A: Given:- A mass m1 = 47 kg length L = 5.0 m is supported in a horizontal position by a vertical…
Step by step
Solved in 2 steps with 2 images
- A uniform ladder of mass (m= 13.5 kg) and length (L) leans against a frictionless wall. If the angle ©60.0°, find the static friction force between the ladder and the floor when a 60.0-kg person stands two-third of the wayup the ladder?A uniform ladder 15 ft long is leaning. against a frictionless wall at an angle of 53 \deg above the horizontal. The weight of the ladder is 30 pounds. A 70 lb boy climbs 5.0 - ft up the - ladder. What is the magnitude of the friction force exerted on the ladder by the floor?(Figure 1) shows a metal advertising sign of weight w suspended from the end of a horizontal rod of negligible mass and length L. The end of the rod with the sign is supported by a cable at an angle θ from the horizontal, and the other end is supported by a hinge at point P. Using the idea that there is zero net vertical force on the rod with the attached sign, find the tension in the cable. Using the idea that there is zero net horizontal force on the rod with the attached sign, find the horizontal component of the force exerted by the hinge.
- A horizontal plank 4.00 m long and having mass 20.0 kg rests on two pivots, one at the left end and a second 1.00 m from the right end. Find the magnitude of the force exerted on the plank by the second pivot.A ladder of length 2L and mass M is positioned on level ground leaning against a wall such that the angle between the ladder and the horizontal is a. The coefficient of static friction between the ladder and the wall and between the ladder and the ground is jistatic = 0.66. The centre of mass ofthe ladder is halfway along it. Draw a diagram indicating all the forces acting on the ladder, and state what each force represents. Also show the direction of the a- and y-axes you will use.A 355 N uniform ladder of length L= 8.00 m leans against a smooth (frictionless) wal The ladder mnakes an angle of 50.0° angle with the horizontal ground and the force of static friction keeps the ladder from sliding to the left. An 875 N firefighter has climbed d = 6.30 m along the ladder trom the bottom. What is the force of static friction f, between the ladder and the ground? 50.0 O 119 N O 480 N O 727 N O 567 N command eptien
- A uniform 37.0 kg scaffold of length 6.2 m is supported by two light cables, as shown below. An 82.0 kg painter stands 1.0 m from the left end of the scaffold, and his painting equipment is 1.6 mfrom the right end. If the tension in the left cable is twice that in the right cable, find the tensions in the cables (in N) and the mass of the equipment (in kg). (Due to the nature of this problem, do not use rounded intermediate values in your calculations).A uniform drawbridge must be held at a 38o angle above the horizontal to allow ships to pass underneath. The drawbridge weights 55000 N and is 15.0 m long. A cable is connected 3.5 m from the hinge where the bridge pivots (measured along the bridge) and pulls horizontally on the bridge to hold it in place. What is the tension in the cable? Find the magnitude and direction of the force the hinge exerts on the bridge. If the cable suddenly breaks, what is the magnitude of the angular acceleration of the drawbridge just after the cable breaks? What is the angular speed of the drawbridge as it becomes horizontal? What is the velocity of the drawbridge, just before it “hits” (i.e. goes horizontal)?A horizontal 12.5 kg beam 2.2 m long is attached to the wall by a hinge at its left end. A cable is connected from the right end of the beam to the wall, at an angle of 26 ° above the beam, as shown below. A 60 kg sign is hung 1.7 m from the left end of the beam. Part A Find the tension in the cable. Part B Find the horizontal force exerted on the wall by the hinge. Part C Find the vertical force exerted on the wall by the hinge
- In the figure, one end of a uniform beam of weight 280 N is hinged to a wall; the other end is supported by a wire that makes angles θ = 28° with both wall and beam. Find (a) the tension in the wire and the (b) horizontal and (c) vertical components of the force of the hinge on the beam.A 6.0 m long ladder AB leans against a smooth wall making an angle of 60º with the floor (Figure 3). The ladder is uniform and has a mass of 20.0 kg.(a) Determine the forces exerted on the ladder by the floor and the wall (i.e. at A and B, respectively).(b) Determine the minimum value of the coefficient of static friction to prevent the ladder from slipping.A uniform 37.0 kg scaffold of length 6.4 m is supported by two light cables, as shown below. An 82.0 kg painter stands 1.0 m from the left end of the scaffold, and his painting equipment is 1.3 m from the right end. If the tension in the left cable is twice that in the right cable, find the tensions in the cables (in N) and the mass of the equipment (in kg). (Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) tension in the left cable N tension in the right cable mass of the equipment kg