Free-body diagrams Pg. 15 in NB. Identify normal forces. Draw a free-body diagram with forces in...
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Transcript of Free-body diagrams Pg. 15 in NB. Identify normal forces. Draw a free-body diagram with forces in...
![Page 1: Free-body diagrams Pg. 15 in NB. Identify normal forces. Draw a free-body diagram with forces in vertical and/or horizontal directions. Calculate the.](https://reader036.fdocuments.net/reader036/viewer/2022062308/56649e2e5503460f94b1e7b0/html5/thumbnails/1.jpg)
Free-bodydiagramsPg. 15 in NB
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• Identify normal forces.
• Draw a free-body diagram with forces in vertical and/or horizontal directions.
• Calculate the net force on an object acted on by forces in vertical and/or horizontal directions.
Objectives Physics terms
• net force
• normal force
• free-body diagram
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If you know the forces acting on an object, you can predict its motion.
Free-body diagrams are valuable tools for figuring out the magnitudes and directions of the forces that act on an object.
Fw
FN1
FN2
Free-body diagrams
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A free-body diagram is a sketch of an object isolated from its surroundings.
ONLY the forces exerted ON the object are included in the diagram.
Forces are drawn as arrows.
Free-body diagrams
Fw
FN1
FN2
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Free-body diagram
Real object
Free-body diagrams
Step 1 Start a free-body diagram by drawing an outline of the object.
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Free-body diagram
Real object
Free-body diagrams
Step 1 Start a free-body diagram by drawing an outline of the object.
![Page 7: Free-body diagrams Pg. 15 in NB. Identify normal forces. Draw a free-body diagram with forces in vertical and/or horizontal directions. Calculate the.](https://reader036.fdocuments.net/reader036/viewer/2022062308/56649e2e5503460f94b1e7b0/html5/thumbnails/7.jpg)
mg
The weight vector is drawn from the center of mass of the object, and points straight down.
WeightStep 2 Next, draw the forces acting ON the object, starting with weight.
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The center of mass is the “balance point” around which all of an object’s mass is equally distributed.
It is at the center of symmetrical shapes.
Center of mass
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Draw the weight force on a free-body diagram approximately at the center of mass of the object.
Weight acts at center of mass10 kg 10 kg
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Draw the weight force on a free-body diagram approximately at the center of mass of the object.
Weight acts at center of mass
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Step 3 Add applied forces to the diagram. Applied forces are drawn at the point where they act, and in the correct direction.
F
Applied forcesThis spring pulls upward on the object.
mg
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Surfaces that contact the object exert a normal or support force, FN.
FN
Normal or support forces
F
FN mg
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Surfaces always push, NEVER pull. The table pushes up on the barbell, so the normal forces point up.
Direction of the normal force
F
mgFNFN
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Normal means perpendicular so that means normal forces are ALWAYS perpendicular to the surface the object is touching.
Direction of the normal force
F
mgFNFN
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This is a complete free-body diagram.
• It contains ALL the forces that act ON the object.
• Every force is identified with a label and direction.
• It does not have too much detail—a rough sketch is all you need.
F
FNFN
Free-body diagrams
mg
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Identify all the forcesOn a free-body diagram, include every force that acts ON the object: weight, normal forces, and applied forces from springs, ropes, and other sources.
The isolated object acts exactly as it did before being “removed” from contact with the environment.
F
FNFN mg
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Every contact with a surface creates a normal force.
Normal forces may be vertical, horizontal, or act at an angle.
Remember: normal forces are always perpendicular to the surfaces that applied them.
Examples of normal forcesBe sure to assign different names to different normal forces!
More on the normal force
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Every contact with a surface creates a normal force.
Normal forces may be vertical, horizontal, or act at an angle.
Remember: normal forces are always perpendicular to the surfaces that applied them.
Examples of normal forcesBe sure to assign different names to different normal forces!
More on the normal force
![Page 19: Free-body diagrams Pg. 15 in NB. Identify normal forces. Draw a free-body diagram with forces in vertical and/or horizontal directions. Calculate the.](https://reader036.fdocuments.net/reader036/viewer/2022062308/56649e2e5503460f94b1e7b0/html5/thumbnails/19.jpg)
There are two different styles you may see for drawing free-body diagrams.
Styles of free-body diagrams
A block of mass m sits on a floor partially suspended by two springs.
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To solve force problems, you have to choose which directions will be positive and which will be negative.
Force is a vector
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Force is a vectorThis choice is arbitrary. Choose the positive direction that makes the problem easiest to solve.
Always make a diagram to remind yourself which direction is positive!
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mg
The net forceIn most situations there are many forces acting at once.
Objects respond to the net force.
In physics “net” means total, taking directions into account.
F
FNFN
What is the net force acting on the dumbbell?
Fnet = F + 2FN - Fw
𝐹 𝑛𝑒𝑡=𝐹+𝐹 𝑁+𝐹 𝑁−𝐹𝑤
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Equilibrium exists when the net force is zero.
In equilibrium there is no change in motion.
An object at rest stays at rest.
Equilibrium
Fnet = 0
F
FNFN
Fnet = F + 2FN - Fw= 0
mg
The dumbbell is at rest so the net force on it must be zero:
F
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The box shown is at rest, so Fnet = 0. What is FN in these examples?
Pressed down with a 4 N force
Pulled up with a force of 4 N.
mg = 10 N mg = 10 N
F = 4 N. F = 4 N
Pressed against the ceiling with a 15 N force
mg = 10 N
F = 15 N.
Find the normal force
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Find the normal force
Pressed down with a 4 N force
Pulled up with a force of 4 N.
Pressed against the ceiling with a 15 N force
mg = 10 N mg = 10 N mg = 10 N
F = 4 N. F = 4 N
F = 15 N.FN = 6 N.
FN = 14 N.
FN = 5 N.
Notice: there is no formula for calculating the normal force. Its magnitude depends on the situation.
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An object at rest is in equilibrium. Therefore the net force is zero.
What is the tension in the ropes that support the gymnast?
Equilibrium problems
Fnet = 0
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Equilibrium problemsThe gymnast is centered, so we can assume the forces from the ropes are equal. Therefore we give them the same name, F.
𝐹 +𝐹−𝑚𝑔=0
2𝐹−637=0 𝐹=637
2=318𝑁
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1. Draw the free-body diagram of the object.
2. Name all the forces.
3. Set the net force to zero, taking account of +/- directions.
4. Solve for the unknown force.
Here are the EQUILIBRIUM problem-solving steps.
Solving equilibrium problems
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Test your knowledgeTwo masses are at rest, connected by a rope that passes over two frictionless pulleys. The string tension T equals m2g.
Which of these free body diagrams best represents the forces acting on mass m1?
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Test your knowledge
Diagram A is best.
Diagram (B) omits the normal force from the floor.
Diagram (C) incorrectly shows the string tension acting downward.
Which of these free body diagrams best represents the forces acting on mass m1?
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AssessmentA 10 kg dumbbell resting on a table is partly supported by a spring that pulls upward with a force of 50 N.
1. Draw the free-body diagram for the dumbbell.
2. What is the magnitude of the net force acting on the dumbbell?
3. What force does the table exert on the dumbbell to hold it up?
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F = 50 N
FN
10 kg
Assessment1. Draw the free-body diagram for
the dumbbell.
mgFN
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10 kg
FN
AssessmentA 10 kg dumbbell resting on a table is partly supported by a spring that pulls upward with a force of 50 N.
2. What is the magnitude of the net force acting on the dumbbell?
Zero. It is at rest (in equilibrium).
mg
F = 50 N
FN
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Fw = mg = (10 kg)(9.8 N/kg) = 98 N
Fnet = 50 N + 2FN - 98 N = 0
2FN = 98 N – 50 N = 48 N (TOTAL)
24N on EACH END of the dumbbell
FNFN
10 kg
AssessmentA 10 kg dumbbell resting on a table is partly supported by a spring that pulls upward with a force of 50 N.
3. What force does the table exert on the dumbbell to hold it up?
mg
F = 50 N