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Everyday Forces.

Published byAlbert Gardner Modified over 6 years ago

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Presentation on theme: "Everyday Forces."— Presentation transcript:

1 Everyday Forces

2 What do you think? What is a force?
Are any forces acting on your book as it rests on your desk? If so, describe them. Make a sketch showing any forces on the book. What units are used to measure force? Can forces exist without contact between objects? Explain.

3 Stuff Ya Gotta Know-Forces and Equilibrium
Forces can change motion. Start movement, stop movement, or change the direction of movement Cause an object in motion to speed up or slow down

4 Stuff Ya Gotta Know-Forces and Equilibrium
Contact forces “Pushes” or “pulls” requiring physical contact between the objects Baseball and bat Field forces Objects create force fields that act on other objects. Gravity, static electricity, magnetism Pictured is a contact force, the bat and the ball, as well as a field force, the static electric field around charged balloon exerting a force on small pieces of paper. Ask students to identify other examples of contact forces.

5 Stuff Ya Gotta Know-Forces and Equilibrium
Units of Force The SI unit of force is the newton (N). Named for Sir Isaac Newton Defined as the force required to accelerate a 1 kg mass at a rate of 1 m/s2 Approximately 1/4 pound Other units are shown below. 1 N = pounds (roughly 1/4 pound) Have students determine their approximate weight in newtons to reinforce the size of the unit. When talking about problems, use both units to help them become more comfortable. For example, a N car is about a 2500 lb car.

6 The Four Fundamental Forces
Stuff Ya Gotta Know-Forces and Equilibrium The Four Fundamental Forces Electromagnetic Caused by interactions between protons and electrons Produces friction Gravitational The weakest force Strong nuclear force The strongest force Short range Weak nuclear force

7 Stuff Ya Gotta Know-Forces and Equilibrium
Weight and Mass Mass is the amount of matter in an object. Kilograms, slugs Weight is a measure of the gravitational force on an object. Newtons, pounds Depends on the acceleration of gravity Weight = mass  acceleration of gravity W = mag where ag = 9.81 m/s2 on Earth Depends on location ag varies slightly with location on Earth. ag is different on other planets. Mention that weight is less on the moon because ag on the moon is 1.6 m/s2 . Reinforce that converting between mass and weight is simple, just multiply or divide by 9.81 m/s2 . Point out that each kg has a weight of 9.81 N on Earth.

8 Net Force and Equilibrium

9 Net Force A net force exists when two unequal forces act in opposite directions There will be movement in the direction of the unequal force Change of direction Change of speed

10 Equilibrium Two equal and opposite forces are in equilibrium
The net force is zero There is no change in motion The body will remain at rest or at constant speed

11 Forces and Free-Body Diagrams

12 Stuff Ya Gotta Know-Forces and Equilibrium
Force Diagrams Forces are vectors (magnitude and direction). Force diagram (a) Shows all forces acting during an interaction On the car and on the wall Free-body diagram (b) Shows only forces acting on the object of interest On the car Students often have trouble isolating the forces acting on an object to draw a free-body diagram for the object. The free-body diagram of the car is analyzed in more detail in the next slide.

13 Stuff Ya Gotta Know-Forces and Equilibrium
Free-Body Diagrams Three forces are shown on the car. Describe each force by explaining the source of the force and where it acts on the car. Is each force a contact force or a field force? For simplicity, all forces are shown acting on the center of the object. Remind students that, when adding vectors, they can be moved parallel without changing the results. Even though the upward force acts on each of the 4 tires, the total is shown acting on the center of the car. Even though the wall strikes the front bumper, that force can be moved to the center of the car without changing the resultant. Gravity (the pull of Earth’s field) acts on every particle in the car but is shown as a single downward force at the center.

14 Show the object as a “point” Show each force separately
Free Body Diagrams Show the object as a “point” Show each force separately W (Fcr) Fwc Frc Fk W (For) T (Fro)

15 Stuff Ya Gotta Know-Forces and Equilibrium
Now what do you think? What is a force? What forces act on your book as it rests on your desk? Make a sketch showing any forces on the book. Are they contact forces or field forces? What SI unit is used to measure force? What equivalent basic SI units measure force? Answers: A force is a push or a pull between two objects. There are two forces acting on the book: the force of gravity downward (field force) and the force of the desk pushing upward (contact force). Forces are measured in newtons (N), a derived unit equivalent to kg•m/s2 .

16 Group Exercise A box is on a ramp that makes an angle of 30o with the horizontal. Draw: A sketch of the system A free-body diagram showing the forces acting on the box

17 W N

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