P4-2. Draw the free-body diagram of object. 300 N Im. 5m.
Q: Q3: The automobile has a mass of 2000 kg and center of mass at G. Determine the towing force F…
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Q: الواجب 3 H.W. ) F3-5. If the mass of cylinder C is 40 kg. determine the mass of cylinder A in order…
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Q: )واجب بتی .H.W F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order…
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Q: 4-14. The man uses the hand truck to move material up the step. If the truck and its contents have a…
A: Given data: The truck and its contents have a mass is m=50 kg. The centre of gravity is G. Apply…
Q: 6-74* The rectangular plate of uniform thickness shown has a mass of 500 kg. Determine the tensions…
A: Drawing FBD of the entire plate: Let, TA = tension in the cable A TB = tension in the cable B TC =…
Q: SQ4 1. Find tensions T, d Tq if the body is in equilibrium 30 W= S olye of Pand x to Forsts
A: Given: To determine the values of T1 and T2.
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A: Given data weight=200 lb μ=0.4N= Normal Reaction…
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Q: C4-3. Draw the free-body diagram of the wing on the passenger plane. The weights of the engine and…
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Q: *4-20. The 1500-N electrical transformer with center of gravity at G is supported by a pin at A and…
A: Draw the F.B.D of the given transformer.
Q: •5-73. Determine the force components acting on the ball- and-socket at A, the reaction at the…
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Q: P4-4. Determine the friction force at the surface of contact. 100 N W = 40 N %3D
A: Given data: The coefficient of static friction is μs = 0.9. The coefficient of kinetic friction is…
Q: The automobile has a mass of 2 Mg and the center of mass at G. Determine the towing Q3 force F…
A: Given Data M=2000 kg μs=0.3
Q: *4-52. The automobile has a mass of 2 Mg and center of mass at G. Determine the towing force F…
A: Given Data: The mass of automobile is m = 2 Mg = 2000 kg. The coefficient of friction is μs = 0.3.…
Q: F3-7. Determine the magnitude of forces F,, F, F3, so that the particle is held in equilibrium.
A: Given data, Force F1 in vector form, F→1=F1×45j^+F1×35k^ Force F2 in vector form, F→2=-F2i^ Force F3…
Q: R4-5. Determine the x, y, z components of reaction at the fixed wall A. The 150-N force is parallel…
A: Given Applied force 150 N parallel to Z axis Applied force 200 N parallel to Y axis To find X, Y, Z…
Q: 3/3 The weight of the bicycle is 29 lb with center of grav- ity at G. Determine the normal forces at…
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Q: Problem (3) F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order to…
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Q: F3-4. The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length…
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Q: F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order to hold the…
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Q: 3/5 The 20-kg homogeneous smooth sphere rests on the two inclines as shown. Determine the contact…
A: F.B.D.
Q: P4-1. Draw the free-body diagram of object. 500 N в
A: In the given figure an object of the length 5 m is fixed at end A and attached with string at point…
Q: W=25N, h=60mm. Find the spring force acting on the member DE and the reactions of the support at F.
A: Given data: The value of weight is, W=25 N. The value of height is, h=60 mm For member AB,
Q: F3-7. Determine the magnitude of forces F1, F2, F3, that the particle is held in equilibrium. SO Z.…
A: Mechanical Equilibrium: A body is said to be in mechanical equilibrium if it satisfies the following…
Q: t B, into P = 800 lb . T = 600 lb es T and 6° L--
A: Given P=800lb T=600lb
Q: F3-5. If the mass of cylinder C is 40 kg, determine the mass of cylinder A in order to hold the…
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Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
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Q: F4-5. The 25-kg bar has a center of mass at G. If it is supported by a smooth peg at C, a roller at…
A: As it is given that the mass of the bar is 25 kg. The expression for the weight of the bar can be…
Q: 3/3 The weight of the bicycle is 29 lb with center of grav- ity at G. Determine the normal forces at…
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Q: Q4 (a) The beam has a pin connection at A and a roller support at B. Determine the reaction forces…
A: Answer: Question 4(a): ◆ Reaction at hinged support A: RA,H = 81.90 N and RA,V = 120.57 N ◆…
Q: F3-2. The beam has a weight of 700 lb. Determine the shortest cable ABC that can be used to lift it…
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Q: R4-3. Determine the normal reaction at the roller A and horizontal and vertical components at pin R…
A: Draw the free body diagram of the member as shown below. We need to find the normal reactions at…
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A: Consider the stretched length of the spring AB be l’AB, lAB be the unstretched length of the spring,…
Q: P4-2. Draw the free-body diagram of object. 3m 500 N
A: In this diagram, there are three fixed supports at points A, B and C. In case of Three dimensional…
Q: The davit is used to suspend the lifoboat over the side of a ship as shown in. The boat exerts a…
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Q: Q3) Draw the free-body diagram of the 50-kg steel tube which has a center of mass at G and rests on…
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Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: solved
Q: R3-1. The boom has a length of 9 m, a weight of 4 kN, and mass center at G. If the maximum moment…
A: Given: L= 9 m Wb= 4kN Moment developed by motor (M)= 30 kN.m To determine: The maximum load (W) that…
Q: F3-2. The beam has a weight of 700 lb. Determine the shortest cable ABC that can be used to lift it…
A: Given:-AC=10 ftBeam weight=700 lbForce in cable=1500 lbTo find:-Length of cable ABC
Q: A fixed crane has a mass of 1000 kg and is used to lift a 2400 kg crate. It is held in place by a…
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Q: The bent rod ACDB is supported by a sleeve at A and a ball-and-socket joint at B. Determine the…
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Q: F3-4. The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length…
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Q: The drop gate at the end of the trailer has a mass of 1000 kg and mass center at G. If it is…
A: Given data The drop gate at the end of the trailer has a mass of 1000 kg and mass center at G. If…
Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: Given :- Determine the components of reaction acting at the smooth journal bearings A, B, and C.
Q: The mass is 60kg. determine: a)the magnitude F. b)the components of reaction at thrust bearing at…
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Q: F3-4. The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length…
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Q: 3-14. Determine the stretch in each spring for equilibrium of the 2-kg block. The springs are shown…
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Q: 3-19. Determine the unstretched length of DB to hold the 40-kg crate in the position shown. Take k…
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- The cable is loaded by an 80-lb vertical force at C and a horizonal force P at B. Determine P.The 1200-lb homogeneous block is placed on rollers and pushed up the 10 incline at constant speed. Determine the force P and the roller reactions at A and B.The 3600-lb car with rear wheel drive is attempting to push the 4500-lb crate. The center of gravity of the car is at G, and the coefficients of static friction are 0.6 at B and 0.2 at C. Determine if the crate will slide. (The car pulling the crate is analyzed in Prob. 7.19.)
- Determine the largest angle for which the homogeneous block remains at rest.The cable AOB weighs 5.2 N/m. When the horizontal 30-N force is applied to the roller support at B, the sag in the cable is 5 m. Find the span L of the cable.The woman is trying to move the crate of weight W by pulling on the rope at the angle to the horizontal. Find the smallest possible tension that would cause the crate to slide and the corresponding angle .
- The 350-lb homogeneous plate has the shape of an isosceles triangle. The plate is supported by a thrust hinge at A, a slider hinge at B, and the cable CD. Find the force in the cable and the magnitudes of the hinge reactions.The 40-kghomogeneous disk is placed on a frictionless inclined surface and held in equilibrium by the horizontal force P and a couple C (C is not shown on the figure). Find P and C.The cable AOB weighs 24 N/m. Determine the sag H and the maximum tension in the cable.
- The uniform, 20-kg bar is placed between two vertical surfaces. Assuming sufficient friction at A to support the bar, find the magnitudes of the reactions at A and B.Find the minimum force P required for impending motion of the block up the inclined surface, given: Mblock = 65 kg, θ = 52 °, μ = 0.43 include free body diagram