# Find the resultant of two forces 130n and 110n respectively

Find the magnitude and direction of the resultant of two force of 250 pounds and 45 pounds at angles 25 degrees and 250 degrees with the x axis respectively? I am still having problems doing this one I mean I think I know what I would use for x axis FX= 250+45 cos (250) But what would I do for y axis?

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• Sep 16, 2019 · Resolution of a vector is the reverse operation for getting the resultant of some vectors where a force can be resolved into two perpendicular forces along dimensions ( x , y ) , Thus : F y = F sin θ. F x = F cos θ. Product of vectors. There are different forms of finding the product of two vectors : Scalar ( dot ) product Jan 09, 2018 · PROBLEM 2.13 For the hook support of Problem 2.11, determine, using trigonometry, (a) the magnitude and direction of the smallest force P for which the resultant R of the two forces applied to the support is horizontal, (b) the corresponding magnitude of R. Problem 2.11: Two forces are applied as shown to a hook support.
• Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer. Help me please Solution. 𝑶 = , 𝑶 = ,∠ 𝑶 = , ∠ 𝑶 = ,
• Feb 03, 2011 · There are two forces. One has a magnitude of 8 N and acts at an angle of 30 degrees on the resultant vector. The resultant vector is 15 N. … First, I drew a diagram. Because the direction of the resultant is not stated, I positioned it going south. I then drew the known vector 30 degrees from the tail of the resultant.
• Jan 06, 2018 · Get the book here: https://amzn.to/2py6FIn If F = 80 N, determine the magnitude and coordinate direction angles of the couple moment. The pipe assembly lies in the x–y plane. If the magnitude of ...
• Get an answer for 'Two forces, F1 and F2, are acting at a point. Find the resultant force if the forces are at right angles.' and find homework help for other Science questions at eNotes
• A resultant force is the single force which represents the vector sum of two or more forces. For example, two forces of magnitudes F1, F2 acting upon a particle have a resultant as shown: F 2 F 1 F F 1 Resultant In order to add two forces together, the ‘start’ of the second force needs to be moved to the ‘end’ of the ﬁrst force, with ... The system and the FBD’s are shown in Figure 4. Assume that force % & is in compression and acts up to the right. Here, there are three unknowns, forces C_x, C_y, and the cable tension magnitude, T (since the pin support force at B must be equal to the straight cable force there).
• The system and the FBD’s are shown in Figure 4. Assume that force % & is in compression and acts up to the right. Here, there are three unknowns, forces C_x, C_y, and the cable tension magnitude, T (since the pin support force at B must be equal to the straight cable force there). Nov 22, 2013 · Two forces of magnitude 3 N and 4 N respectively act on a body. The maximum possible magnitude of the resultant of these forces is: 12 N 7 N 5 N 1 - 434095 Home » Questions » Science/Math » Physics » Physics - Others » Two forces of magnitude 3 N and 4 N respectively...

Determine the resultant force applied by Jerome and Michael to the halfback. (The directions of the two forces are stated as counter-clockwise angles of rotation with East.) Audio Guided Solution

(1) find the horizontal distances travelled by a projectile projected at an angle 30° with horizontal with speed15 m/s, at the time it is at height 2.5 m above the point of projection. (take g = 10 ms-need step to step explaination Oct 01, 2016 · Find the angle between the two forces and find the projection of the first force ... The force F = 450 lb acts on the frame. Resolve this force into components acting along members AB ... the magnitude of the resultant of two perpendicular forces is 50 newton .if the resultant makes with the first force an angle of measure 30°,find the magnitude of each of these two forces . asked by Sherine on September 27, 2016; Calculus. Two forces act on an object at 20 degree to each other. One force has a magnitude of 200N, and the resultant has a magnitude of 340N.

Feb 03, 2011 · There are two forces. One has a magnitude of 8 N and acts at an angle of 30 degrees on the resultant vector. The resultant vector is 15 N. … First, I drew a diagram. Because the direction of the resultant is not stated, I positioned it going south. I then drew the known vector 30 degrees from the tail of the resultant. Sep 16, 2019 · Resolution of a vector is the reverse operation for getting the resultant of some vectors where a force can be resolved into two perpendicular forces along dimensions ( x , y ) , Thus : F y = F sin θ. F x = F cos θ. Product of vectors. There are different forms of finding the product of two vectors : Scalar ( dot ) product Apr 12, 2013 · Two forces with magnitudes of 150 and 75 pounds act on an object at angles of 30° and 150° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer. Find the magnitude and direction of the resultant of two force of 250 pounds and 45 pounds at angles 25 degrees and 250 degrees with the x axis respectively? I am still having problems doing this one I mean I think I know what I would use for x axis FX= 250+45 cos (250) But what would I do for y axis?

Two forces acting on a body in opposite directions,have the resultant velocities of 10newton. if they act at right angles to each other, the resultant is 50 newton.find the two forces. asked by Abhishek on March 16, 2011; Math. Find the magnitude of the resultant vector of two 5-pound forces that act on an object with an angle of 70° between them. Two forces of 80 N and 70 N act simultaneously at a point. Find the resultant force, if the angle between them is 150°. [Ans. 106.3 N ; 61°] 3. Find the resultant of two forces 130 N and 110 N respectively, acting at an angle whose tangent is 12/5. [Ans. 185.7 N ; 30.5°] 4. A push of 180 N and pull of 350 N act simultaneously at a point.

This resultant force acts at an angle A with the greater of the two forces and towards the smaller force such that: tanA = (Magnitude of smaller force)/Magnitude of greater force. = 5/12 = 0.41666. Measure of angle A corresponding to this value of tanA is 22.6 degrees. Oct 15, 2013 · In order to hold the wheelbarrow in the position show force F must produce a counter clockwise moment of 200 N m about the axle at A. Determine the required magnitude of force F. 1 answer A solid, cylindrical workpiece made of 5052-O Aluminum is 12 cm high and 8 cm in diameter. .

The horizontal beam in the figure below (Figure 1) weighs 110 N , and its center of gravity is at its center.Find the tension in the cable.Find the horizontal component of the force exerted on the beam at the wall.Find the vertical component of the force exerted on the beam at the wall. Jan 09, 2018 · PROBLEM 2.13 For the hook support of Problem 2.11, determine, using trigonometry, (a) the magnitude and direction of the smallest force P for which the resultant R of the two forces applied to the support is horizontal, (b) the corresponding magnitude of R. Problem 2.11: Two forces are applied as shown to a hook support.

Get an answer for 'Two forces, F1 and F2, are acting at a point. Find the resultant force if the forces are at right angles.' and find homework help for other Science questions at eNotes

An experiment to find the resultant of two forces. To make our experiment manageable we shall reduce all the forces to one tune thousandth of their actual value so we shall have what is called a small-scale simulation of the real thing. The resultant force of the two forces is 40 N. Explanation: Given that, Force 1, Force 2, The angle between two forces is 150 degrees. The resultant of two forces is given by : F = 40 N. So, the resultant force of the two forces is 40 N. Learn more, Vectors. brainly.in/question/13512592 This resultant force acts at an angle A with the greater of the two forces and towards the smaller force such that: tanA = (Magnitude of smaller force)/Magnitude of greater force. = 5/12 = 0.41666. Measure of angle A corresponding to this value of tanA is 22.6 degrees.

Two forces of 80 N and 70 N act simultaneously at a point. Find the resultant force, if the angle between them is 150°. [Ans. 106.3 N ; 61°] 3. Find the resultant of two forces 130 N and 110 N respectively, acting at an angle whose tangent is 12/5. [Ans. 185.7 N ; 30.5°] 4. A push of 180 N and pull of 350 N act simultaneously at a point. Rectangular components arc convenient for finding the sum or resultant R of two forces which are concurrent. Consider two forces F1and F2 which are originally concurrent at a point O. Figure 7 shows the line of action of F2 shifted from O to the tip of F1accoding to the triangles rule of Fig. 3 In adding the force vectors F1 and F2, we may write

Find the direction and magnitude of the resultant force. Round to two decim Algebra -> Trigonometry-basics -> SOLUTION: Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100°, respectively. 2. The greatest & least resultants of two forces acting on a particle are 35kN & 5kN respectively. If 25KN is the magnitude of the resultant for the given system of forces F 1 and F 2,prove that the forces are at right angles.( hints: When R is max, θ= 0,R is min θ= 180 0) A resultant force is the single force which represents the vector sum of two or more forces. For example, two forces of magnitudes F1, F2 acting upon a particle have a resultant as shown: F 2 F 1 F F 1 Resultant In order to add two forces together, the ‘start’ of the second force needs to be moved to the ‘end’ of the ﬁrst force, with ... Find the magnitude and direction of the resultant of two force of 250 pounds and 45 pounds at angles 25 degrees and 250 degrees with the x axis respectively? I am still having problems doing this one I mean I think I know what I would use for x axis FX= 250+45 cos (250) But what would I do for y axis?

Find the magnitude and direction of the resultant of two force of 250 pounds and 45 pounds at angles 25 degrees and 250 degrees with the x axis respectively? I am still having problems doing this one I mean I think I know what I would use for x axis FX= 250+45 cos (250) But what would I do for y axis? Find the resultant of two forces 130N and 110N respectively acting at an angle whose tangent is 12/5? Classical physics; GUEST 2015-11-05 04:53:37. 0. 1 Answers A resultant force is the single force which represents the vector sum of two or more forces. For example, two forces of magnitudes F1, F2 acting upon a particle have a resultant as shown: F 2 F 1 F F 1 Resultant In order to add two forces together, the ‘start’ of the second force needs to be moved to the ‘end’ of the ﬁrst force, with ...

This resultant force acts at an angle A with the greater of the two forces and towards the smaller force such that: tanA = (Magnitude of smaller force)/Magnitude of greater force. = 5/12 = 0.41666. Measure of angle A corresponding to this value of tanA is 22.6 degrees. Oct 01, 2016 · Find the angle between the two forces and find the projection of the first force ... The force F = 450 lb acts on the frame. Resolve this force into components acting along members AB ... Rectangular components arc convenient for finding the sum or resultant R of two forces which are concurrent. Consider two forces F1and F2 which are originally concurrent at a point O. Figure 7 shows the line of action of F2 shifted from O to the tip of F1accoding to the triangles rule of Fig. 3 In adding the force vectors F1 and F2, we may write

Resolving Forces, Calculating Resultants Ref: Hibbeler § 2.4-2.6, Bedford & Fowler: Statics § 2.3-2.5 Resolving forces refers to the process of finding two or more forces which, when combined, will produce a force with the same magnitude and direction as the original. The most common use of the Rectangular components arc convenient for finding the sum or resultant R of two forces which are concurrent. Consider two forces F1and F2 which are originally concurrent at a point O. Figure 7 shows the line of action of F2 shifted from O to the tip of F1accoding to the triangles rule of Fig. 3 In adding the force vectors F1 and F2, we may write Find the resultant of two forces 130n and 110n respectively acting at an angle whose tangent is 12/5 1500kg car is travelling along road at 20m/s 2 seconds later its speed is 21m/s what is the magnitut Find the direction and magnitude of the resultant force. Round to two decim Algebra -> Trigonometry-basics -> SOLUTION: Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100°, respectively.

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• Find the direction and magnitude of the resultant force. Round to two decim Algebra -> Trigonometry-basics -> SOLUTION: Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100°, respectively.
• 8 Expert Answer(s) - 58753 - the maximum and minimum magnitude of the resultant of two forces are 16 N and 4N.calculate t he magn. Answer this question and win exciting prizes The resultant of two forces 130 N and 110 N is 200 N. The resultant of two vectors acting at an angle is given by Force is a vector quantity. Hence, from the given question we get P = 130, Q = 110. tan = 12/5 ⇒ cos = 5/13. Therefore, resultant of the given forces is given by R = 200 N
• Jan 06, 2018 · Get the book here: https://amzn.to/2py6FIn If F = 80 N, determine the magnitude and coordinate direction angles of the couple moment. The pipe assembly lies in the x–y plane. If the magnitude of ... Sep 16, 2019 · Resolution of a vector is the reverse operation for getting the resultant of some vectors where a force can be resolved into two perpendicular forces along dimensions ( x , y ) , Thus : F y = F sin θ. F x = F cos θ. Product of vectors. There are different forms of finding the product of two vectors : Scalar ( dot ) product Jan 09, 2018 · PROBLEM 2.13 For the hook support of Problem 2.11, determine, using trigonometry, (a) the magnitude and direction of the smallest force P for which the resultant R of the two forces applied to the support is horizontal, (b) the corresponding magnitude of R. Problem 2.11: Two forces are applied as shown to a hook support.
• Oct 15, 2013 · In order to hold the wheelbarrow in the position show force F must produce a counter clockwise moment of 200 N m about the axle at A. Determine the required magnitude of force F. 1 answer A solid, cylindrical workpiece made of 5052-O Aluminum is 12 cm high and 8 cm in diameter. (1) find the horizontal distances travelled by a projectile projected at an angle 30° with horizontal with speed15 m/s, at the time it is at height 2.5 m above the point of projection. (take g = 10 ms-need step to step explaination .
• The horizontal beam in the figure below (Figure 1) weighs 110 N , and its center of gravity is at its center.Find the tension in the cable.Find the horizontal component of the force exerted on the beam at the wall.Find the vertical component of the force exerted on the beam at the wall. Oct 01, 2016 · Find the angle between the two forces and find the projection of the first force ... The force F = 450 lb acts on the frame. Resolve this force into components acting along members AB ... Bachmann motor replacement
• When two forces act on the same point or object their sum is often called their resultant, the resultant of the two forces, so I want to determine the resultant or sum of two forces f and g, so imagine these two forces f and g are acting on some point or object and the magnitude of f is 500 newtons, that's the unit of force. Question 981278: Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100° respectively. Find the direction and magnitude of these forces. Round to two decimal places in all intermediate steps and in your final answer. Please help! I would like to understand the steps to get to the answer! Two forces acting on a body in opposite directions,have the resultant velocities of 10newton. if they act at right angles to each other, the resultant is 50 newton.find the two forces. asked by Abhishek on March 16, 2011; Math. Find the magnitude of the resultant vector of two 5-pound forces that act on an object with an angle of 70° between them.
• Jan 06, 2018 · Get the book here: https://amzn.to/2py6FIn If F = 80 N, determine the magnitude and coordinate direction angles of the couple moment. The pipe assembly lies in the x–y plane. If the magnitude of ... The horizontal beam in the figure below (Figure 1) weighs 110 N , and its center of gravity is at its center.Find the tension in the cable.Find the horizontal component of the force exerted on the beam at the wall.Find the vertical component of the force exerted on the beam at the wall. .

Oct 01, 2016 · Find the angle between the two forces and find the projection of the first force ... The force F = 450 lb acts on the frame. Resolve this force into components acting along members AB ... A resultant force is the single force which represents the vector sum of two or more forces. For example, two forces of magnitudes F1, F2 acting upon a particle have a resultant as shown: F 2 F 1 F F 1 Resultant In order to add two forces together, the ‘start’ of the second force needs to be moved to the ‘end’ of the ﬁrst force, with ...

Jul 04, 2017 · Find the resultant of two forces 130 N and 110 respectively. Acting at an angle whose tangent is 12/5? Oct 13, 2016 · Two forces with magnitudes of 200 and 100 pounds act on an object at angles of 60° and 170° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer.

(1) find the horizontal distances travelled by a projectile projected at an angle 30° with horizontal with speed15 m/s, at the time it is at height 2.5 m above the point of projection. (take g = 10 ms-need step to step explaination The resultant of two forces 130 N and 110 N is 200 N. The resultant of two vectors acting at an angle is given by Force is a vector quantity. Hence, from the given question we get P = 130, Q = 110. tan = 12/5 ⇒ cos = 5/13. Therefore, resultant of the given forces is given by R = 200 N

Jul 30, 2014 · Two forces with magnitudes of 200 and 100 pounds act on an object at angles of 60° and 170° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer. Apr 08, 2013 · Two forces with magnitudes of 150 and 75 pounds act on an object at angles of 30° and 150° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer.

Two forces acting on a body in opposite directions,have the resultant velocities of 10newton. if they act at right angles to each other, the resultant is 50 newton.find the two forces. asked by Abhishek on March 16, 2011; Math. Find the magnitude of the resultant vector of two 5-pound forces that act on an object with an angle of 70° between them. (1) find the horizontal distances travelled by a projectile projected at an angle 30° with horizontal with speed15 m/s, at the time it is at height 2.5 m above the point of projection. (take g = 10 ms-need step to step explaination

Feb 03, 2011 · There are two forces. One has a magnitude of 8 N and acts at an angle of 30 degrees on the resultant vector. The resultant vector is 15 N. … First, I drew a diagram. Because the direction of the resultant is not stated, I positioned it going south. I then drew the known vector 30 degrees from the tail of the resultant.

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Question 981278: Two forces with magnitudes of 25 and 30 pounds act on an object at angles of 10° and 100° respectively. Find the direction and magnitude of these forces. Round to two decimal places in all intermediate steps and in your final answer. Please help! I would like to understand the steps to get to the answer! This resultant force acts at an angle A with the greater of the two forces and towards the smaller force such that: tanA = (Magnitude of smaller force)/Magnitude of greater force. = 5/12 = 0.41666. Measure of angle A corresponding to this value of tanA is 22.6 degrees.

Resolving Forces, Calculating Resultants Ref: Hibbeler § 2.4-2.6, Bedford & Fowler: Statics § 2.3-2.5 Resolving forces refers to the process of finding two or more forces which, when combined, will produce a force with the same magnitude and direction as the original. The most common use of the

Jan 04, 2018 · Find the resultant force, if the angle between them is 150°. [Ans. 106.3 N ; 61°] 3. Find the resultant of two forces 130 N and 110 N respectively, acting at an angle whose tangent is 12/5. [Ans. 185.7 N ; 30.5°] 4. A push of 180 N and pull of 350 N act simultaneously at a point. Find the resultant of the forces, if the angle between them be ... Oct 15, 2013 · In order to hold the wheelbarrow in the position show force F must produce a counter clockwise moment of 200 N m about the axle at A. Determine the required magnitude of force F. 1 answer A solid, cylindrical workpiece made of 5052-O Aluminum is 12 cm high and 8 cm in diameter.

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Oct 13, 2016 · Two forces with magnitudes of 200 and 100 pounds act on an object at angles of 60° and 170° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer.

Get an answer for 'Two forces, F1 and F2, are acting at a point. Find the resultant force if the forces are at right angles.' and find homework help for other Science questions at eNotes

• The horizontal beam in the figure below (Figure 1) weighs 110 N , and its center of gravity is at its center.Find the tension in the cable.Find the horizontal component of the force exerted on the beam at the wall.Find the vertical component of the force exerted on the beam at the wall.
• Jun 21, 2009 · place the forces on the cartesian plane in such a way that the 80N force lies in first quadrant and the 100N force lies in the fourth quadrant (each force making 30° with x axis), X axis being the angle bisector of the angle b/w the two forces. This resultant force acts at an angle A with the greater of the two forces and towards the smaller force such that: tanA = (Magnitude of smaller force)/Magnitude of greater force. = 5/12 = 0.41666. Measure of angle A corresponding to this value of tanA is 22.6 degrees.
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• Nov 22, 2013 · Two forces of magnitude 3 N and 4 N respectively act on a body. The maximum possible magnitude of the resultant of these forces is: 12 N 7 N 5 N 1 - 434095 Home » Questions » Science/Math » Physics » Physics - Others » Two forces of magnitude 3 N and 4 N respectively...
• finding the resultant force, knowing its components, or resolving a known force into two components. We will now describe how each of these problems is solved using the parallelogram law. Finding a Resultant Force. The two component forces F 1 and F 2 acting on the pin in Fig. 2–7a can be added together to form the resultant force F R = F 1 + F Oct 15, 2013 · In order to hold the wheelbarrow in the position show force F must produce a counter clockwise moment of 200 N m about the axle at A. Determine the required magnitude of force F. 1 answer A solid, cylindrical workpiece made of 5052-O Aluminum is 12 cm high and 8 cm in diameter.

Resolving Forces, Calculating Resultants Ref: Hibbeler § 2.4-2.6, Bedford & Fowler: Statics § 2.3-2.5 Resolving forces refers to the process of finding two or more forces which, when combined, will produce a force with the same magnitude and direction as the original. The most common use of the .

the magnitude of the resultant of two perpendicular forces is 50 newton .if the resultant makes with the first force an angle of measure 30°,find the magnitude of each of these two forces . asked by Sherine on September 27, 2016; Calculus. Two forces act on an object at 20 degree to each other. One force has a magnitude of 200N, and the resultant has a magnitude of 340N.

Determine the resultant force applied by Jerome and Michael to the halfback. (The directions of the two forces are stated as counter-clockwise angles of rotation with East.) Audio Guided Solution

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Nov 22, 2013 · Two forces of magnitude 3 N and 4 N respectively act on a body. The maximum possible magnitude of the resultant of these forces is: 12 N 7 N 5 N 1 - 434095 Home » Questions » Science/Math » Physics » Physics - Others » Two forces of magnitude 3 N and 4 N respectively... Two forces of 80 N and 70 N act simultaneously at a point. Find the resultant force, if the angle between them is 150°. [Ans. 106.3 N ; 61°] 3. Find the resultant of two forces 130 N and 110 N respectively, acting at an angle whose tangent is 12/5. [Ans. 185.7 N ; 30.5°] 4. A push of 180 N and pull of 350 N act simultaneously at a point. Apr 12, 2013 · Two forces with magnitudes of 150 and 75 pounds act on an object at angles of 30° and 150° respectively. Find the direction and magnitude of the resultant force. Round to two decimal places in all intermediate steps and in your final answer. An experiment to find the resultant of two forces. To make our experiment manageable we shall reduce all the forces to one tune thousandth of their actual value so we shall have what is called a small-scale simulation of the real thing.

Physics 100A Homework 4 – Chapter 5. Newton’s First Law . A)If a car is moving to the left with constant velocity then the net force applied to the car is zero. B) An object cannot remain at rest unless the net force acting on it is zero. finding the resultant force, knowing its components, or resolving a known force into two components. We will now describe how each of these problems is solved using the parallelogram law. Finding a Resultant Force. The two component forces F 1 and F 2 acting on the pin in Fig. 2–7a can be added together to form the resultant force F R = F 1 + F cbafaculty.org Determine the resultant force applied by Jerome and Michael to the halfback. (The directions of the two forces are stated as counter-clockwise angles of rotation with East.) Audio Guided Solution If the resultant force at O has magnitude FR and is directed along the negative z-axis, determine the force in each chain assuming FA = FB = FC = F. a = 6 ft b = 4 ft FR = 130 lb Problem 5 Cable BC exerts force F on the top of the flagpole. Determine the projection of this force along the z-axis of the pole. Given: Two forces of 80 N and 70 N act simultaneously at a point. Find the resultant force, if the angle between them is 150°. [Ans. 106.3 N ; 61°] 3. Find the resultant of two forces 130 N and 110 N respectively, acting at an angle whose tangent is 12/5. [Ans. 185.7 N ; 30.5°] 4. A push of 180 N and pull of 350 N act simultaneously at a point.

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Jan 09, 2018 · PROBLEM 2.13 For the hook support of Problem 2.11, determine, using trigonometry, (a) the magnitude and direction of the smallest force P for which the resultant R of the two forces applied to the support is horizontal, (b) the corresponding magnitude of R. Problem 2.11: Two forces are applied as shown to a hook support.
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