Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 200 lb 300 lb 500 Ib 2.
Q: For the hook support shown, determine by trigonometry the magnitude and direction of the resultant…
A: The hook support is shown in fig. , by trigonometry method magnitude and direction of the resultant…
Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to…
A: Break the components of forces acting on the frame in the x and y direction respectively as shown in…
Q: Four 1-in.-diameter pegs are attached to a board as shown. Two strings are passed around the pegs…
A: Answer: The correct answer is option (a) i.e. 410 lb•in.
Q: 4. Determine the magnitude and the location of the resultant force. 100 lb 45 Ib/ft 6 ft 8 ft 6 ft
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Q: 26 kilo Newton force if the resultant of the two forces one which has shown in figure determine the…
A: given; resultant force(R)=26KN lets take other force F1 and F2
Q: Determine the magnitude and direction of the resultant of two forces acting on the eye hook shown in…
A: given figure;
Q: Q3/ The three forces and the couple are applied to the bracket shown in Figure below. Determine (1)…
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Q: Three forces are applied to a bracket as shown. The directions of the two 150-N forces may vary, but…
A: Consider R as the resultant of the forces between the forces 150 N and P as the resultant of the…
Q: Q3/ The three forces and the couple are applied to the bracket shown in Figure below. Determine (1)…
A: Given
Q: Find the measure of the angle (in degrees) made by the resultant of the concurrent forces with…
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Q: 7) Please refer to the figure below. Determine the magnitude of the resultant couple at point D in…
A: Solution: The magnitude of the resultant couple at point D is calculated as:
Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force triangles, to…
A: The force triangle of the system is represented below: The 250 lb force is placed at the point A…
Q: The 100N force of fig. is the resultant of the couple and three forces, two of which are shown.…
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Q: The resultant of two 100N forces is 50N. The angle between the two 100N forces is. Answer is…
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Q: 2. The measure of the angle between two forces of magnitudes 20 and 10 kg wt acting at a particle is…
A: This question is solved with the help of the parallelogram law of vector addition. Resultant force,…
Q: QI// For the system shown below, determine the magnitude & direction of: 1- The resultant force (F)…
A: Mechanical Equilibrium: A body is said to be in mechanical equilibrium if it satisfies the following…
Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force triangles, to…
A: The force triangle is given as, On using Cosine law, it is written as AC2 = AB2+BC2-2(AB)(BC) cos…
Q: QI: The forces shown in fig. Determine the magnitude and direction of their resultant Q= 60 N 25 P…
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Q: A rectangular steel plate with dimensions 6 in. by 12 in. is subjected to four forces as shown. (a)…
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Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to…
A: Given: The magnitude of force one is F1 = 500 lb The magnitude of force two is F2 = 700 lb The…
Q: The resultant of two forces acting at a point at right angles to each other is 240 pounds. Determine…
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Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force triangles, to…
A: Calculate the angle ϕ and β that the forces make with the horizontal from the given figure.
Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force triangles, to…
A: From the triangle law of vector addition, consider the diagram shown below.
Q: Ql: determine the resultant of the force system in next figure. And locate the resultant with…
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Q: The resultant of the force system shown is a force-couple R and C* acting at point O. Determine the…
A: Given data: The force 4 kN acting in the negative x-axis direction. The force 6 kN acting in the…
Q: Find the resultant force from adding F1 + F2 + F3 where F1 = 146 lbs at 65 degrees F2 = 69 lbs…
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Q: From the given figure, determine the following characteristics of the resultant: (a) magnitude of R,…
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Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to…
A: The diagram of force vectors arrangement is given as, On using Cosine Rule in vector triangle…
Q: QI: The forces shown in fig. Determine the magnitude and direction of their resultant using the…
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Q: Two forces F1 and F2 act upon q body in such a manner that the resultant force R has a magnitude…
A: Given data, R=F1 And F1=10 lbs.
Q: Q2: determine the resultant of the force system in next figure. And locate the resultant with…
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Q: During the power stroke of an internal combustion engine, the 330 lb pressure force pushes the…
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Q: Find the measure of the angle (in degrees) made by the resultant of the concurrent forces with…
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Q: The figure shows a rigid body loaded with a system of forces. If the resultant of this system is a…
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Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to…
A: Consider x-axis as the baseline, then the angles of the forces 350 N, 500 N and 600 N from the…
Q: Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to…
A: Given Load 250 lb, 350 lb and 500 lb To find Magnitude of resultant and angle with respect to the x…
Q: A 300-lb vertical force is the resultant of the force F2 applied together with the 150-lb force F as…
A: Given: Fr→=300 j^ Now, F1→=150 cos 60 i^+150 cos 60 j^ +150 cos 45 k^=75 i^+75 j^ +106.07 k^F2→=Fx…
Q: Determine the resultant of the following forces using the analytical method C= 60 N, 240 degrees
A: Force C=60 N Acting at angle θ=240°, Force component in the x direction is ∑Cx=Ccosθ. Force…
Q: Find the resultant of the concurrent co-planar forces ?system as shown in fig 6200 lb 3800 lb 4000…
A: When all of the forces acting on an object are equal, the thing is said to be in equilibrium. If the…
Q: Find the magnitude of the resultant of two forces. Angle 'C- 5.00 degrees. Your Answer:
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Q: The resultant of moments of forces depends on: All the above. O The directions of the applied…
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Q: Using the Cartesian components (rectangular components), determine the resultant of the force…
A: Given that, F1=55 lbsF2=130 lbsF3=55 lbsα=65°n=8.6m=6.2 The given system of forces is,
Q: O21: IT the resultant (R = 500 lb) as shown in figurecei) determine the values of the force (F) ond…
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Q: 2 Find the measure of the angle between two forces of 30 lb. and 35 lb. if the magnitude of their…
A: The angle between two angles is 80o. Therefore, option (d) is correct answer.
Q: A concurrent force system is shown in the image. Determine the magnitude and direction of the…
A: If a force F is inclined at an angle θ with the horizontal, then the component of force along the…
Q: 21 in. 800 lb 8 in. 5 in. 1000 lb 8 in.
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Q: B: The plate shown below is affected by the forces FA and FB, by assuming the value of 0, calculate…
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Q: A 1000-lb force is resolved into components along AB and AC as shown below. If the component along…
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Q: Concurrent forces of 150 lb is acting horizontally to the right, and a force of 350 lIb is acting…
A: Since we are allowed to answer one question at a time. Hence, we’ll answer the first question since…
Q: Determine the magnitude and direction of the resultant of the two acting on the bracket shown in…
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- The magnitude of the force F is 160 lb. Find its rectangular representation.The force R is the resultant of P and 0. Determine Q and the angle .Find the measure of the angle (in degrees) made by the resultant of the concurrent forces with respect to the positive y - axis if θ = 27.3° , F = 209, Q = 112.7, a = 6.74, and b = 8.31. Round off only on the final answer expressed in 3 decimals.
- Find the resultant force from adding F1 + F2 + F3 where F1 = 146 lbs at 65 degrees F2 = 69 lbs at 125 degrees F3 = 140 lbs at 285 degrees Your answers should be reported with 3 significant figures for - x-component and - y-component and - magnitude of resultant and - angle of resultant. -The resultant 1000 lb force acts upward and to the right at 30 deg with the horizontal axis. Resolve this resultant into 2 components, Solve for P and Q, where it acts up to the right with angles of 10 deg. And 50 deg. with the horizontal, respectivelyThe resultant of two 100N forces is 50N. The angle between the two 100N forces is. Answer is 151.045°
- Q3 / Determine and locate the resultant of the system shown in fig (3) If you know that the values of Ax = 240 N. Ay = 2000 N. F = 160 N, N = 2400 N. W = 400 N and M = 2N.mPlease refer to the figure below. Determine the magnitude of the resultant at a point D in lb-ft.Use the law of sines and the law of cosines, in conjunctionwith sketchesof the force triangles;determine the magnitude of the resultant ?and the angle ?between the x-axis and the line of action of the resultant force.
- Find the magnitude and direction of the resultant of a 60-pound force acting at an angle of 40 degrees clockwise from the positive y-axis, at 20-pound force that acts ay an angle of 90 degrees clockwise from the positive y-axis, and a 40-pound force that acts at an angle of 300 degrees clockwise from the positive x-axis.ind the resultant of the following forces by polygon method: F1= 12N, 270 degrees: F2= 24N, 30 degree north of west; F3=15 N, 75 degree south of west; and F4=32 N, 50 degree south of eastPlease solve with complete solutions and please please please put all complete figures and enclose the final answer thank you. Dont answer this if there is no figure or diagram. Given through the indicated points: A=280kN (12, 6, -4); B=520kN (-3, -4, 12); and C=270kN (6,-3,-6). Determine the resultant of the system of concurrent forces and the direction cosine of each of the axes having the following magnitudes, and passing through the origin.