Determine the magnitude of the forces P and F
Q: to the right, determine the force F in rope A and the *.corresponding angle e
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Q: find the horizontal and vertical forces acting on the block in terms of Q
A: Given:- To Find:- horizontal and vertical forces acting on the block in terms of Q
Q: The y-component of the force F which a person exerts on the handle of the box wrench is known to be…
A: The angles from given figure are - cosθ=513, sinθ=1213 The y-component of force is given by-…
Q: If the roller at B can sustain a maximum load of 3kN, determine the largest magnitude of each of the…
A: Given: Maximum load at B is 3 KN. Drawing the dree body diagram
Q: If force F=400 N, determine the components of the forces at B, C and D. Draw the FBD of each member…
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Q: Determine the magnitude of the force in member FD. b) Determine the magnitude of the force in…
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Q: Determine the components of all forces acting on each member of the loaded frame.
A: Given:
Q: The y-component of the force F which a person exerts on the handle of the box wrench is known to be…
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Q: The y-component of the force F which a person exerts on the handle of the box wrench is known to be…
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Q: determine the zero force members
A: Given data To identify zero force member.
Q: 2. Determine the required force to initiate motion of the two blocks.
A: Mass m1= 90 kg Mass m2= 30kg mus1= 0.4 mus2= 0.1 To find Required to force to initiate motion of…
Q: F1=17 and F2=26 forces in the system shown a-) Calculate the force p, which will keep the system in…
A: Given: F1 = 17KN, F2 = 26 KN (a) Take moment about point C 17*0.3 + 26*0.6 =P*0.6 P =34.5…
Q: 3- Determine the force T and C 3 kN 20 16 kN 40 8 kN
A: In horizontal direction Tcos40+8+Csin20-16=00.766T+0.342C=8 -1
Q: Determine the x and y components of each of the forces shown.
A: Given:- Three forces, 60 lb, 40 lb, 50 lb acting on the given member To find:- x and y components…
Q: Compute the magnitudes of all forces acting on member CDE of the frame.
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Q: Given the 600-N force applied to the bracket at A in F
A: The given problem comprises of the change of the axis for which the given force 600N is to be…
Q: determine the required force F2 if the resultant of the forces is to be vertical. Determine also the…
A: given; →force(F2)=?→if resultant force (R) vertical θ=900→lets take corresponding value resultant…
Q: 668 Ib 250 lb 3
A: Given Data⇒
Q: Calculate the magnitude of the force P and Q so that the resultant force passes through point O of…
A: Fist the Moment produced by the all forces about it's center in the vector form is…
Q: 1. A block of Weight G is hanged over the two bars 1 and 2 and supported by hanger 3. If the…
A: Draw the FBD for the given question.
Q: e the force in member BF
A: By using Methods of joint ∑MD=06RA=412+324RA=412+3246RA=20kNFor joint…
Q: Determine the forces acting on the rods S1 and S2
A: Given Force = 4 N To find Magnitude of S1 = S2 =
Q: Determine the magnitude of the force in cable AC so that the force in cables AD and AC is half the…
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Q: Calculate the magnitudes of the forces P and Q so that the resultant force passes through point O of…
A: Consider the moment in a clockwise direction as positive and the moment in the anticlockwise…
Q: . Determine the magnitude (in N) of the force acting
A: Given: TO determine : Tension in cable at point C
Q: 3- Determine the force T and C y C 3 kN 20° 16 kN 40° 8 kN
A: It is required to determine value of C and T
Q: Q3: Determine the magnitude of the moments M.. Ms, M Mg and Mc produced by the force F.
A: For solution refer below images.
Q: Determine the distance from G of the resultant force for the truss shown below,if the load at B is i
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Q: Determine the force in cable AB if F = 450 lb Determine the force in cable AC Determine the force…
A: Given: F=450 lb To determine: THe force in member AB, AC, and AD
Q: Determine the forces in AB and BC and indicate the direction of each.
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Q: Determine the force P (magnitude of force P) required to support the 450 N force using the pulley…
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Q: Determine the magnitudes of the forces C and T, which, along with the other three forces shown, act…
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Q: The ring shown is subjected to two forces F1 and F2. If it is required that the resultant force have…
A: Given:- Resultant force F = 1 kN = 1000 N.
Q: Determine the magnitudes of the forces C and T, which, along with the other three forces shown, act…
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Q: . The 3200-lb weight is supported by two cables. Knowing that the resultant of the cable tensions T1…
A: By sine law T1sinθ1=T2sinθ2=Wsinθ3
Q: Calculate the forces at a: F_Ax = ___________, F_Ay=__________________, and the forces at D: F_Dx =…
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Q: Determine graphically the forces FAB and FAC
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Q: Find the equivalent force acting on the truss and its position from points A to G.
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Q: determine the force in
A: Here We need to determine the Force in cylinder when temperature goes to T2= 130 deg.c
Q: Determine the ratio RA of the force exerted by the sun on the moon to that exerted by the earth on…
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Q: Determine the components of all forces acting on each member of the loaded frame.
A: Given data Given force system
Q: D) Determine the true magnitude and direction of the forces acting on the cylinder
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Q: Determine the force in
A: To determine the force.
Q: Q1: If the horizontal component of the force (F) is (24 XN+). De-termiue the magnitude of the force…
A: we have to determine the components of the force
Q: the length b of the triangular load and its p sultant force is zero and the resultant coup a
A: given: resultant moment=220/3 kN-m
Q: Find the true magnitude and direction of the support forces A, B.
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- Three chains act on the bracket in such a way as to generate a resultant force of 2224 N. If two of the chains are subjected to known forces (P1 and P2) as shown in the figure, determine the orientation Ѳ of the third chain, measured clockwise, from the positive x axis, so that the magnitude of the force, F, on this chain is minimal. All forces lie in the x - y plane. What is the magnitude of F? TIP: First find the resultant of the two known forces, the force F acts in this direction. Note: P1 = 400 lb and P2 = 300 lbQ6- Two forces F1=240 lb and F2=160lb act on the hip joint. Determine the resultant of the two forces and express the result as a cartesian vector. Also, find the coordinate direction angles of the resultant force. Z F1= 240 lb 75° 131 F2 = 160 lb ww 45° yfind the resultant for forces. F=635 N, F2=468 N, F3=254 N F1 F2 F3 45°
- The truck shown below is to be towed using two ropes. If the resultant force is to be 950 N, directed along the positive x axis, determine the magnitudes of forces Fa and Fp acting in each rope and the angle 6 of Fp so that the magnitude of Fp is a minimum. Fa acts at 20° from the x axis as shown.Determine the magnitude and direction of the resultant of the concurrent forces described below. Draw the necessary figure. F1= 300 lb, up to the right, 45 degree with respect to positive x-axis F2= 400 lb, up to the left, 60 degree with respect to x-axis F3= 200 lb, down to the left, 30 degree with respect to x-axisQ4b. Force vectors F1 and F2 act on body Pwith the resultant force vector R. The resultant force R= 575 N and the angle between Rand the x-axis is of 320. If F1 = 275 N and the angle between F1 and the x-axis is 560, determine the angle between F2 and the x-axis. *Assume coplanar vector forces and give your answer in degrees to two decimal places. Body, P Answer: y F1 R F2
- Q3/ Two forces are applied to the construction bracket as shown. Determine the angle e which makes the resultant of the two forces vertical. Determine the magnitude R of the resultant. Use the parallelogram law. F1 = 800 lb y F2 = 425 lb %3D 70Q-3: Determine the magnitude and coordinate direction angles of the resultant force acting at A. FB = 900 N A Fc= 600 N C r 6 m 3 m 45°( B. 4.5 m 6 m2-30. Three cables pull on the pipe such that they create a resultant force having a magnitude of 900 lb. If two of the cables are subjected to known forces, as shown in the figure, determine the direction @ of the third cable so that the magnitude of force F in this cable is a minimum. All forces lie in the x-y plane. What is the magnitude of F? Hint: First find the resultant of the two known forces. 600 lb 400 Ib
- Q-2: (a) Determine the coordinate direction angles of forces F1. (b) Determine the magnitude and coordinate direction angles of the resultant force acting on F = 650 kN F= 800 kN 45 30 the eyebolt.find the sum of the moments of the Forces in kN.m about Point O, (positive in the counter- clockwise direction). F1 = 60 kN and F2 = 22 kN. 15 m 9 m F1 kN F2 KNQ1: The 100 lb force of Figure below is the resultant of the couple and four forces, three of which are shown in the diagram. Determine the fourth force and locate it with respect to point А. 100b 50b 4 120in -Ib 20b 40b