Find tension in the cable
Q: There is a pulley keeping the 30 lb force in balance. Find the forces at C keeping the whole unit in…
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Q: Find the forces at all joints of the structure.
A: Free Body diagram : Consider beam EGF ∑ME = 0 CG (5 x sin45) + 100 x 10 = 0 CG = 2828.42 N…
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A: Given: Load (P)=150lb
Q: 7 نقاط Find the forces in cables (A and B) if the mass of the box is (10 kg) then * fine the mass of…
A: A free body diagram of a geometric representation of all the forces acting on a system. The weight…
Q: Calculate the tension in each cable around the pulley.
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Q: The boom shown has a negligible weight and supports the 1000 N load. А 60° 1000 N 7.1 Find the…
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Q: Find the magnitude of all the elements and tell whether they are in tension or compression.
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Q: Q/ Find the reaction Force of system in A,B, c
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Q: Sphere A weighs 275 lb and Shere B weighs 205 lb. Assume all surfaces are frictionless. What…
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Q: Find the tension force in each 35 cabler 木 oss kg.
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Q: Find the reactions at the fixed connection at A. 4 N/m A 2m 4m
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Q: The Magnitude of the reaction Force (R and T) is
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Q: 200 lb Use the force triangle method 3 ft- 3 ft and law of sines to find the the reactions at C and…
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Q: Find the tension in leg AC of the cable if the sag, h = 4'. 3' h
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Q: Three cables tether a hot-air balloon as shown in the diagram. The balloon is in static equilibrium…
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Q: Find the weigh W of the block .the system is in equilibrium
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Q: Find the force CD. The force is positive if in tension, negative if in compression.
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Q: B D - W 2W - L/2 L/2 * L/2 L/2
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Q: Find the reactions and roller A and pin B А 3 kN 30 3 m 4 m b) Draw the free body diagram
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Q: Find the magnitude of the force F and its direction θ so that the particle P is in equilibrium.
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Q: The support at A is a smooth pin and the support at B is a roller. Find all o support reactions at A…
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Q: Determine the constraint equation that relates the bodies A and B.
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Q: determine the tension in cable AC and in cable BC.
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Q: Find the reactions at the supports of the given beam of length 10 m with the self-weight of 10 kN…
A: First draw the diagram of given beam,
Q: a) Find the tension in the string. b) Determine the normal force on the 5.0 kg block.
A: To find Tension in string normal force
Q: Two blocks are connected by a string. The smooth inclined surface makes an angle theta of 37 degrees…
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Q: Find the reactions at the support A and B in the system below.
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Q: d. Draw the F BD considering the forces acting at point C. e. Solve for Fcr and FCE. You may…
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Q: 4. Find the all the support reactions and all the internal forces in all the members and whether in…
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Q: Q2: The cylinder A weighs 660 N and it is supported by the vertical smooth wall and the cable system…
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Q: 11. Find the forces in all five cables. OD B. 60 30 kg
A: Given, m = 30 kg
Q: E 3 D. 12 5 A B
A: As we know that the weight always acts at the downward to the body and as the wall is smooth no…
Q: The tension in cable AD is N.
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Q: If the man can move the crate, and the tension force is in the cable.
A: we have to find tension in string for the box to move
Q: equilibrium position (k = 460 N/m) used to stop the block. Find the maximum compression of the…
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Q: A) Calculate the tension in the wire and the reaction force (magnitude and direction) for the sign…
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Q: 2. Cable AB passes over the small ideal pulley C without a change in its tension. The length of…
A: Given data Weight of load W = 50N To determine the tension in the cable CD
Q: Draw the FBD. Find the support reactions in A and tension force in the cable. P = 8 KN.
A: Given data Given force system
Q: = the tension forces for
A: To find Tension forces
Q: Find out the tension in both the cables given in the fi
A: Given figure:
Q: Determine the tension at AC
A: Given: To determine: The tension in member AC
Q: (a) Draw a FBD for the beam. (b) Find the tension in the cable. (c) What is the magnitude of the…
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Q: For the shown frame: 1.Determine the reactions at Pin A and at B. 2.What is the force developing In…
A: Consider the free body diagram as shown below for the given system.
Q: 4 kN Q3: Find the reactions for the following 5 kN/m 4 m
A: The hinge support at A gives the horizontal and vertical reaction and the roller support at C gives…
Q: The resultant force of the three cable tensions that support the crate is R = 500j lb. Find T1 and…
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Q: Plot the tension in each cable as a function of d , if d varies from 0 to 8 m. The weight of the…
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Q: Block A has a mass of 4 kg and block 8 of 4 kg Neglecting the mass of the pulleys, find the tension…
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Q: find the tension if the cord attached to the blocks.
A: Given: To determine: Force P Tension in the cord
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- A 20 kg block is held in place on an incline plane as shown by a rope that passesover a frictionless pulley at B and then over a fixed cylinder at C where thecoefficient between the rope and the fixed cylinder is 0.2. Given an angle ofincline, A = 25°, if a force of P = 200 V is applied to the end of the rope,(a) Will the block move if the coefficient of static friction between the block and theinclined surface is M, = 0.56?(b)If impending motion exists, will the block tip or slip?The system is used to lift a block with mass 300 kg. If the friction coefficient between twoblocks, and between a block and a surface, are 0.20 and 0.35, respectively, what is the minimum force Prequired such that the object is about to be lifted? Assume weights of the blocks to be negligiblecompared to lifted weight. (g=9.81)Box A weighs 1000N and has a height of H1=3m and width W1=2m. Box B weighs 800N. the static friction coefficient between the boxes is uA=0.7 and the static friction coefficient between box B and the ramp is uB=0.5. Find the max allowable angle for the following instances where no motion occurs, box A and B remain stationary. 1) Box A slides, Box B remains stationary 2) Box A tips, Box B remains stationary 3) Box B slides, Box A remains stationary on block B
- A 100 N force acts as shown on a 30.6 kg block placed on an inclined plane. The coefficients of friction between the block and the plane are µs = 0.25 and µk = 0.2. Determine whether the block is in equilibrium and find the value of the friction force.A 2-m long concrete traffic barrier is used to provide safety for workers, pedestrians, and motorists during highway construction. The concrete has 0.024 N/cm3 specific weight. The interface between the barrier and pavement has static and kinetic coefficients of friction of 0.45 and 0.4, respectively, and h= 45 cm. Determine the force P that will cause motion of the barrier.A body of mass 30 kg is resting on a horizontal plane. A pull of 80 N is subjected on the body and tends the body to move. Will the body move if coefficient of friction between the body and the plane is 0.3.
- A = 1 kg, B = 2 kg, C= 200 kg, and the static of coefficient friction is equal to 0.04. Determine the normal force exerted by the horizontal plane to Block B (Nb). Find the force F required to start C moving upward (F).A mass of 4.0 kg is placed on a spring which has a spring constant of 256 N/m and compresses it a length of 87 cm from its equilibrium position. This set up is on an incline at an angle of 40º above the horizontal and there is a coefficient of kinetic friction of 0.17 between the mass and the surface. What will the speed of the mass be when it has moved a total distance of 1.0 m up the incline from its starting position. (Use g = 9.8m/s2 and round answer to 1 decimal place.)2 A dustbin of mass 12 kg standing on horizontal ground is pushed by a horizontal force of 40 N. If the coefficient of friction is 0.4, will the dustbin move?
- The weight of the motorcycle is 151 kg and the weight of the driver is 64 kg. Dimensions: l1 = 0,31 m and l2 = 0,23 m Determine the required frictional force.In order to burgle a local McDonald's, the Hamburglar must climb onto the roof. To do this, a ladder of length 3.31 m and mass 21.2 kg is placed leaning against a vertical wall, as shown in the image below. There is negligible friction between the ladder and the wall, but the same is not true for the ladder and the ground: us ≠ 0 between those two surfaces. Even with that friction, the ladder will start slipping if the angle ø ladder makes relative to the ground is less than 71.0°. Assuming the ladder is uniform (so that its center of gravity is located at its geometric center), what must be the maximum static frictional force (in N) that exists between the bottom of the ladder and the ground? Explain how you solved the problem involving a ladder leaning against a wall. Be sure to state what your known and unknown quantities are, what concepts were applied, and what equations were used!the system blocks shown below is in equilibrium, the weight of block A is 10 kN and for block B is 35 kN . The coefficient of friction between A and surface is 0.2 and between two block A and B is 0.15. Answer the following: The direction of friction force between two blocks which effect on block A is in * First Quarter Second Quarter Third Quarter Fourth Quarter The value of friction force between two blocks is * 5.6 kN 6.4 kN 4.8 kN Non above-mentioned The value of friction force between block A and its surface is * 4.0 kN 5.5 kN 6.2 kN Non above-mentioned The coefficient of friction between block B and surface is * 5 نقاط 0.24 0.63 0.56 0.37 The value of friction force between the block B and it's surface is * 25 kN 35 kN 15 kN Non above-mentioned The system is in * Equilibrium Impending to motion Kinematic