determine the zero force members
Q: Q2/ Determine the horizontal resultants about A knowing that point A is fixed .support taking e=45
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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
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A: Given: To determine: The horizontal and vertical components of force that the pins at A and B exert…
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Q: 3a) Determine the x component of reaction force at F (F) in Newtons.
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Q: find the total force ov
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Q: Resolve the 200-lb force into components along (a) the x- and y-axes and (b) the x’- and y-axes.
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Q: Q4 If the vertical component of the force F applied to the ring is (10 Ib), determine the magnitude…
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Q: The three forces, each of magnitude F, are applied to the crate. Determine F so that the three…
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Q: 11 Find the resultant of forces if F
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Q: At what angle θ must the 400-lb force be applied in order that the resultant R of the two forces…
A: Given:
Q: 2. Determine the required force to initiate motion of the two blocks.
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Q: Q.4) Resolve the force 80 kN into two components, one and the other along ON along OM
A: Consider the diagram shown below for the given vectors.
Q: 1400 lb At what angle @ must the 800-lb force be applied in order that the resultant R of the two…
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Q: Q1; Find the resultant of forces
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Q: Find the representation of the force F, given that its magnitude 240N
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A: Option 1 is correct. Ax = 24 kN, Ay = 12 kN, Dx = 18 kN, Dy = 24 kN
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A: Let us assume the loading condition of the crates.
Q: Given the 600-N force applied to the bracket at A in F
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Q: The three forces, each of magnitude F, are applied to the crate. Determine F so that the three…
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Q: When F1 = 400 (N), F2 = 500 (N), find the resultant force (R).
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Q: Q3/ Determine the resultant of the force system with respect to the point (A)
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Q: Q3: Determine the two coponents (Q) and (P) of the force (R=500 lb) Q 3. R= 500 4 12
A: GIVEN DATA - A FORCE SYSTEM GIVEN WE HAVE TO FIND VALUE OF P AND Q
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Q: * The resultant force has higher effect on the body than the group of forces when it replaces False…
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Q: DETERMINE THE MAGNITUDE RESULTANT OF THE THREE CABLE TENSIONS THAT ACT ON THE HORIZONTAL BOOM IF T1=…
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Q: magnitude of the vertical reaction force developed at the point B
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A: GIVEN:F=350Nθ1=300θ2=400
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Q: Q1: If the horizontal component of the force (F) is (24 XN+). De-termiue the magnitude of the force…
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Q: Resolve the 360-lb force into components along the cables AB and AC. Use α = 60° and β = 40°.
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Q: determine the equivalent force-couple
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Q: Resolve the 360-lb force into components along the cable AB and AC. Use a = 60° and B = 40°
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- For the truss loaded as shown, determine the equation for the line of action of the stand-alone resultant R and state the coordinates of the points on the x- and y-axes through which the line of action passes. All triangles are 3-4-5. Assume F₁ = 15 kN, F₂ = 15 kN, F3 = 25 kN, F4 = 45 kN, and M = 115 kN.m. A 6 m H F Answers: 8 m x-axis: x = i y-axis: y = i F₂ Equation of line: y = i B M D F. m m X + i mFor the truss loaded as shown, determine the equation for the line of action of the stand-alone resultant R and state the coordinates of the points on the x- and y-axes through which the line of action passes. All triangles are 3-4-5. Assume F₁ - 35 kN, F2-20 kN, Fs-20 kN, F4-15 kN, and M-140 kN-m. - x 6m 8m H Ch Answers: Equation of line: y = x-axis:x- i y-axis: y = i B C M D F₁ F₁ EE X+ i mFor the truss loaded as shown, determine the equation for the line of action of the stand-alone resultant R and state the coordinates of the points on the x- and y-axes through which the line of action passes. All triangles are 3-4-5. Assume F₁ = 20 kN, F₂ = 40 kN, F3 = 40 kN, F4 = 50 kN, and M = 120 kN-m. 6 m H C F₁ Answers: 8 m F₂ Equation of line: y = x-axis: x = i -1.04 y-axis: y = i 1.37 B ·x M D 1.32 F₁ F₂ E E X+ 1.37 E
- P2-6. stablish a position vector from point A to point B. 3 m -4 m 3 m 4 mFor the truss loaded as shown, determine the equation for the line of action of the stand-alone resultant R and state the coordinates of the points on the x- and y-axes through which the line of action passes. All triangles are 3-4-5. Assume F₁ = 10 kN, F2 = 20 kN, F3 = 25 KN, F4 = 40 kN, and M = 120 kN.m. A 6 m H G F₁ Answers: 8m x-axis: x= i y-axis: y = i F₂ Equation of line: y = IN B M D F₁ F₂ m m X+ mDetermine the resultant and angle of concurrent forces system using algebraic method. F1=P F2=2P F3=P F4=3P F5=1P F6=2P F7=P F8=7P F9=7P 0₁-45 0₂-45 03-70 04=20 05=45 06-45 07-30 08-40 09-20 FA F5 F6 04 05 0₂ 06 F3 0₂ 0, 08 09 F₂ Fg 8 F₂ Fg F₁
- 1. Determine the magnitude and direction with respect to the +x axis on the reaction at A and at C. Note that the body is supported by pin at A and a roller at C. The body's weight is negligible. A 2.4 kN-m 400 40° 200 250- Dimensions in mm -300- B 3 kNFor the truss loaded as shown, determine the equation for the line of action of the stand-alone resultant R and state the coordinates of the points on the x- and y-axes through which the line of action passes. All triangles are 3-4-5. Assume F₁ = 10 kN, F₂ = 40 kN, F3 = 45 KN, F4 = 20 kN, and M = 120 kN-m. 6 m H (5 5 Answers: 8 m x-axis: x = i y-axis: y = i F₂ Equation of line: y = i B M D F₁ F₁ m m X+ i mQ4b. 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
- 2 - The 200-N force produces a torque (moment) of 40 N.m about the axis of the bolt in order to tighten the hexagonal nut . Find the forces between the smooth jaws of the wrench and the nut if contact occurs at the corners A and B of the hexagon .I'm stuck at establishing the Moment at O for both circles. I don't know how to find the force.2 - The 200-N force produces a torque (moment) of 40 N.m about the axis of the bolt in order to tighten the hexagonal nut . Find the forces between the smooth jaws of the wrench and the 20 mm 200 N nut if contact occurs at the corners A and B of the hexagon.