Resultant Force: Definition & Equation | StudySmarter

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Resultant Force

Consider a car that starts moving forward from rest. It starts with a speed of zero and continues to gain speed while the car experiences a force. This change in speed is the result of multiple forces acting on the car. All of these forces can be combined in such a way that they can all be represented by one single force. This is the resultant force.

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For forces applied at different angles to the direction of motion, we have to _____ the applied forces.

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• Immunology
• Cell Biology
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The component of the resultant force in the direction of motion is responsible for the motion.

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• Immunology
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Balanced forces will always produce motion.

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A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 30 N force to the right and the second force is a 60 N force to the right. What is the resultant force acting on the cart?

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• Immunology
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• Mo

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 50 N force to the left and the second force is a 30 N force to the right. What is the resultant force acting on the cart?

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• Immunology
• Cell Biology
• Mo

A resultant force on an object will cause it to move.

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A person is standing stationary on level ground. The weight of the person is 800 N. The reaction force that the ground exerts on them is 800 N. What is the resultant force exerted on the person?

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Force is a scalar quantity.

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Force is a vector quantity and can be represented by arrows.

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When two forces act in the same direction on an object, the resultant force is the ______ of the two forces.

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When two forces act in opposite directions on an object, the resultant force is the ______ between the two forces.

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• Immunology
• Cell Biology
• Mo

For forces applied at different angles to the direction of motion, we have to _____ the applied forces.

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

The component of the resultant force in the direction of motion is responsible for the motion.

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

Balanced forces will always produce motion.

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 30 N force to the right and the second force is a 60 N force to the right. What is the resultant force acting on the cart?

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 50 N force to the left and the second force is a 30 N force to the right. What is the resultant force acting on the cart?

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

A resultant force on an object will cause it to move.

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

A person is standing stationary on level ground. The weight of the person is 800 N. The reaction force that the ground exerts on them is 800 N. What is the resultant force exerted on the person?

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

Force is a scalar quantity.

Show Answer

• + Add tag
• Immunology
• Cell Biology
• Mo

Force is a vector quantity and can be represented by arrows.

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• Mo

When two forces act in the same direction on an object, the resultant force is the ______ of the two forces.

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When two forces act in opposite directions on an object, the resultant force is the ______ between the two forces.

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StudySmarter Editorial Team

Team Resultant Force Teachers

• 10 minutes reading time
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Save Article Save Article Sign up for free to save, edit & create flashcards. Save Article Save Article

• Fact Checked Content
• Last Updated: 16.05.2022
• Published at: 13.05.2022
• 10 min reading time

• Astrophysics
• Atoms and Radioactivity
• Circular Motion and Gravitation
• Classical Mechanics
• Conservation of Energy and Momentum
• Dynamics
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• Electricity
• Electricity and Magnetism
• Electromagnetism
• Electrostatics
• Energy Physics
• Engineering Physics
• Famous Physicists
• Fields in Physics
• Fluids
• Force
• Conservation of Momentum
• Contact Forces
• Elastic Forces
• Force and Motion
• Gravity
• Impact Forces
• Moment Physics
• Moments Levers and Gears
• Moments and Equilibrium
• Pressure
• Resultant Force
• Safety First
• Time Speed and Distance
• Velocity and Acceleration
• Work Done
• Fundamentals of Physics
• Further Mechanics and Thermal Physics
• Geometrical and Physical Optics
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• Linear Momentum
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• Measurements
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• Translational Dynamics
• Turning Points in Physics
• Wave Optics
• Waves Physics
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Contents

• Astrophysics
• Atoms and Radioactivity
• Circular Motion and Gravitation
• Classical Mechanics
• Conservation of Energy and Momentum
• Dynamics
• Electric Charge Field and Potential
• Electricity
• Electricity and Magnetism
• Electromagnetism
• Electrostatics
• Energy Physics
• Engineering Physics
• Famous Physicists
• Fields in Physics
• Fluids
• Force
• Conservation of Momentum
• Contact Forces
• Elastic Forces
• Force and Motion
• Gravity
• Impact Forces
• Moment Physics
• Moments Levers and Gears
• Moments and Equilibrium
• Pressure
• Resultant Force
• Safety First
• Time Speed and Distance
• Velocity and Acceleration
• Work Done
• Fundamentals of Physics
• Further Mechanics and Thermal Physics
• Geometrical and Physical Optics
• Kinematics Physics
• Linear Momentum
• Magnetism
• Magnetism and Electromagnetic Induction
• Measurements
• Mechanics and Materials
• Medical Physics
• Modern Physics
• Nuclear Physics
• Oscillations
• Particle Model of Matter
• Physical Quantities And Units
• Physics of Motion
• Quantum Physics
• Radiation
• Rotational Dynamics
• Scientific Method Physics
• Solid State Physics
• Space Physics
• Thermodynamics
• Torque and Rotational Motion
• Translational Dynamics
• Turning Points in Physics
• Wave Optics
• Waves Physics
• Work Energy and Power

Contents

• Fact Checked Content
• Last Updated: 16.05.2022
• 10 min reading time

• Content creation process designed by Lily Hulatt
• Content sources cross-checked by Gabriel Freitas
• Content quality checked by Gabriel Freitas

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Resultant force: Definition

We call the single force that represents the effects of all of the other forces acting on an object, the resultant force.

Recall that a force is an interaction between objects that causes one or more of the objects to change their state of motion. It can simply be thought of as a push or pull. Imagine a large box on the floor; if you wanted to get the box to move, you would need to push or pull the box; that is, you need to apply a force. The Figure below shows a forceFapplied to a box that is on a horizontal, frictionless floor. The block moves in the direction of the force. Force is a vector, and can be represented by an arrow which indicates the size and direction of the force.

A box being pushed across a frictionless floor by a force, F, moves in the direction of the applied force, - StudySmarter Originals

What would happen if another force were to be applied to the box in the opposite direction? If friction is introduced between the box and the floor, it would become more difficult to move the box across the floor. The next figure depicts this scenario, where an additional force, the friction forcef, acts in the opposite direction of the forceF.

A box is pushed across the floor by a force, F, whilst a friction force, f, acts in the opposite direction. The box moves in the direction of F with more difficulty than before. - StudySmarter Originals

The resultant force is now less than before because the two forces act in opposite directions. If two forces were acting in the same direction the resultant force would be greater than before.

Resultant force examples

The resultant force on an object is the vector sum of all of the forces acting on the object. This comes from the resultant force definition and can be illustrated with the following examples.

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is30 N, acting to the right and the second force is60 N, also acting to the right. What is the resultant force acting on the cart?

The resultant force is the combined effect - the single force that results from the two applied forces acting on the cart. In this case, the two forces act in the same direction and are therefore added.

Fres=60 N+30 N =90 N

The figure below shows a free-body diagram of the cart with the two forces acting on it.

A cart with two applied forces of 30 N and 60 N acting on it in the same direction has a resultant force of 90 N in the direction of the applied forces, adapted from the image by Qwertyxp2000. CC BY-SA 4.0

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is30 N, acting to the right and the second force is10 N, acting to the left. What is the resultant force acting on the cart?

In this scenario, the two forces are acting in opposite directions and the resultant force is now the difference between the two forces. We, therefore, subtract one force from the other to obtain a resultant force.

Fres=30 N-10 N =20 N

That is, the resultant force is20 Nto the right. The effect felt by the cart is as if we replaced the two individual forces with a single force of magnitude20 N, acting to the right.

A cart under the influence of two applied forces of 30 N right and 10 N left acting on it has a resultant force of 20 N to the right, adapted from the image by Qwertyxp2000. CC By-SA 4.0

A police officer is standing stationary on level ground. The weight of the officer,W, is800 N. The reaction force that the ground exerts on the officer,R, is800 N. Calculate the resultant force exerted on the police officer.

In this case, we can subtract one force from the other to obtain a resultant force of 0 N to the right, as follows.

Fres=800 N - 800 N =0 N

The weight of the police officer is balanced by the reaction force and the police officer neither moves up nor down. The resultant force on the officer is the difference between the forces (since they act in opposite directions) which is zero. When the resultant force on an object is0 N, the object will remain at its current velocity unless it is acted upon by an external force.

A police officer with a weight W of 800 N feels a reaction force from the ground R of 800 N. The resultant force on the police officer is zero. - StudySmarter Originals

Resultant force equation

We can write a general equation for the resultant forceFreson an object when multiple forces act on it in a straight line. Suppose we have two forces,F1andF2acting on an object in the same direction; the resultant force equation can be written as the sum of each of the forces as follows.

Fres=F1+F2

If two forces,F3andF4, act in a straight line but in opposite directions on an object, the resultant force equation is written as the difference between the two objects as below.

Fres=F3-F4

Let's look at an example of multiple forces on an object in different directions. The corresponding resultant force diagram can be seen in the figure below.

The resultant force on an object is the vector sum of all the forces acting on that object as shown by this diagram. - StudySmarter Originals

F1andF2act in the same direction andF3acts in the opposite direction toF1andF2. The resultant force equation is, therefore:

Fres=F1+F2-F3

The magnitude of resultant force

Recall that force is a vector quantity, so we use minus to indicate its direction, e.g. if we choose the right direction to be positive, any force to the left has a minus sign in front of its value. The magnitude of a resultant force Fres, is a scalar quantity, so in the case of multiple forces acting on an object, the magnitude of the resultant force is just the size of the force without its direction. That is, we drop the minus sign in front of the number (if there is one). An example of this is given below.

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a40 Nforce to the right, and the second force is a50 Nforce to the left. What is the magnitude of the resultant force acting on the cart? (Take the right direction to be positive.)

Taking the rightwards direction as positive, the calculation is as follows:

Fres=40 N - 50 N =-10 NMagnitude of Fres=10 N

The magnitude of the resultant force is the absolute value of-10 N, which is simply10 N. This means that the size of the resultant force is10 N. Additionally, we can see that its direction is to the left.

Resolving forces: Resultant force diagrams

From the example above, we can see that there is no resultant force when the forces on an object are balanced. Also, the direction of the resultant force on an object gives us the direction in which the object will move. All of the forces mentioned above are applied parallel to the floor or surface along which the object is able to move. What would happen if the force on an object were applied at some angle to the surface?

Imagine that a box is being pushed across a floor by a forceFof magnitude20 N, but the force is applied downward and to the right at an angle of 35° to the horizontal. We have to resolve the force into components, since the box moves horizontally along the surface.

A force F is applied to a box at an angle of 35° to the horizontal surface. The box moves horizontally along the surface. - StudySmarter Originals

We can draw a resultant force diagram to resolveFinto a horizontal and vertical component as follows (not drawn to scale).

A 20 N force is resolved into its horizontal (16 N) and vertical (11 N) components. - StudySmarter Originals

If the arrows in the diagram are drawn accurately and to scale, we can measure the vertical component of the force (by measuring the length of the vertical arrow) to be11 Nand the horizontal component (by measuring the length of the horizontal arrow) to be16 N. We must make sure to draw them to scale. Our arrows should form a right-angle triangle, when the arrows representing the horizontal and vertical components of the resultant force are placed head to tail.

The vertical component of the force balances the normal contact force between the floor and the box. The horizontal component is responsible for moving the box horizontally across the floor. If we can resolve forces to find the components responsible for causing objects to move, we can find the resultant force for any number of forces acting on an object.

Resultant Force - Key takeaways

• The combined effect of many forces is known as the resultant force.
• When two forces act in the same direction on an object, the resultant force is the sum of the two forces.
• When two forces act in opposite directions on an object, the resultant force is the difference between the two forces.
• When the forces on an object are balanced, there is no resultant force on the object.
• For two forces, F1 and F2, that act on an object in the same direction, the resultant force equation is Fres=F1+F2.
• For two forces, F3 and F4, that act on an object in opposite directions, the resultant force equation is Fres=F3-F4.
• The magnitude of the resultant force is the value of the force without the minus sign. It is the size of the force.
• The direction of the resultant force on an object is the direction in which the object will move.
• We have to resolve the applied forces, when they are applied at different angles to the direction of motion.
• The component of the resultant force in the direction of motion is responsible for the motion.

Similar topics in Physics

• Work Energy and Power
• Radiation
• Astrophysics
• Fluids
• Physics of Motion
• Famous Physicists
• Torque and Rotational Motion
• Fields in Physics
• Scientific Method Physics
• Magnetism
• Medical Physics
• Further Mechanics and Thermal Physics
• Energy Physics
• Force
• Modern Physics
• Atoms and Radioactivity
• Dynamics
• Electricity and Magnetism
• Fundamentals of Physics
• Kinematics Physics
• Linear Momentum
• Geometrical and Physical Optics
• Rotational Dynamics
• Electrostatics
• Space Physics
• Magnetism and Electromagnetic Induction
• Electromagnetism
• Conservation of Energy and Momentum
• Turning Points in Physics
• Measurements
• Engineering Physics
• Mechanics and Materials
• Electricity
• Nuclear Physics
• Circular Motion and Gravitation
• Oscillations
• Translational Dynamics
• Thermodynamics
• Electric Charge Field and Potential
• Wave Optics
• Quantum Physics
• Classical Mechanics
• Solid State Physics
• Waves Physics
• Physical Quantities And Units
• Particle Model of Matter

Related topics to Force

• Force and Motion
• Contact Forces
• Time Speed and Distance
• Pressure
• Conservation of Momentum
• Moments Levers and Gears
• Gravity
• Resultant Force
• Moment Physics
• Impact Forces
• Moments and Equilibrium
• Elastic Forces
• Work Done
• Velocity and Acceleration
• Safety First

Flashcards in Resultant Force

14 Start learning

For forces applied at different angles to the direction of motion, we have to _____ the applied forces.

resolve

The component of the resultant force in the direction of motion is responsible for the motion.

True

Balanced forces will always produce motion.

False

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 30 N force to the right and the second force is a 60 N force to the right. What is the resultant force acting on the cart?

90 N right

A cart is placed on a smooth, horizontal surface and is acted upon by two forces. The first force is a 50 N force to the left and the second force is a 30 N force to the right. What is the resultant force acting on the cart?

20 N left

A resultant force on an object will cause it to move.

True

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Frequently Asked Questions about Resultant Force

What is resultant force?

We call the single force that represents the effects of all of the other forces acting on an object, the resultant force.

How to calculate the resultant force?

The resultant force on an object is the vector sum of all the forces acting on that object.

How to find the resultant force of 3 vectors?

The resultant force is the vector sum of the three forces acting on that object.

How to find angle of resultant force?

The tan of the angle between the resultant force and its horizontal component is equal to the vertical component of the resultant force divided by its horizontal component.

What is the formula for resultant force?

FR = F1 + F2 + F3 + ... + Fn

Save Article Test your knowledge with multiple choice flashcards

For forces applied at different angles to the direction of motion, we have to _____ the applied forces.

A. resolve B. divide C. multiply D. ignore

The component of the resultant force in the direction of motion is responsible for the motion.

A. False B. True

Balanced forces will always produce motion.

A. True B. False

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