Simple Machines Inclined Plane, Wedge and Screw

Simple Machines – Inclined Plane, Wedge and Screw

• Look at the objects shown on these pages. Which of them would you call machines?

• Would it surprise you to find out that each is ____________________________________

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• As you learned in the last section, a machine helps you do work by ________________

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· There are six basic kinds of simple machines: ____________________________________

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• In this section, you will learn how the different types of simple machines help you do work.

Inclined Plane
Have you ever had to lift something from a lower level to a higher level?

• The job is much easier if you have a ___________________________________.

• For example, a ramp makes it much easier to push a _____________________________

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• A ramp is an example of a simple machine called ________________________________.

• An inclined plane is _________________________________________________________.

How It Works

• An inclined plane allows you to exert your ____________________________________

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• As a result, the input force needed is ___________________________________________.

• The _________________force that you use on an inclined plane is the force with which _____________________________________________________________________________.

• The _________________ force is the force that you would need to ___________________

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• Recall that this force is equal to ________________________________________________.

Mechanical Advantage

You can determine the ideal mechanical advantage of an inclined plane by dividing the _____________________________________________________________________________.

• Ideal Mechanical Advantage =

· For example, if you are loading a truck that is ______ meter high using a ramp that is_____ meters long, the ideal mechanical advantage of the ramp is ______ meters ÷______ meter, or __________.

• The inclined plane increases the force you exerted _______________________ times.

• If the height of the incline does not change, ______________________________________ of the incline will _____________________________________________________________.

• The _____________________ the incline, the _______________________ you need to push or pull an object.

• Although the amount of work is the same whether you lift the boxes or push them up the ramp to the truck, you need ______________________ when you use an inclined plane.

• When you use a ramp, what happens to the distance over which you exert your force?

Wedge

• If you’ve ever sliced an apple with ______________________, pulled up _________________________ or seen someone chop wood with ______________, you are familiar with another simple machine known as _______________________________.

• A wedge is _________________________________________________________________

_____________________________________________________________________________.

• It might be helpful to think of a wedge, like the one shown below, as _____________________________________________ (or sometimes two inclined planes back to back) _____________________________________________________.

The Forces of a Wedge

• The __________________________________ exerted on a wedge results in _______________________________ that can split the log.

• You have probably never given much thought to the zippers

on your clothes.

• But zippers use _________________________________________________

_________________________________________________________________.

How It Works

• When you use a wedge, instead of moving an object along the inclined plane, you ___________________________________________________________________________.

• For example, when an axe is used to split wood, the axe _________________________

__________________________ on the blade of the axe, which is ______________________.

• That force pushes ____________________________________________________________.

• The wedge in turn exerts _________________________________ at a 90° angle to its slope, splitting the wood in two.

• Wedges are a part of your everyday life. For example, ___________________________

_______________________________.

· A __________________________________________________________________________ all make use of wedges.

Mechanical Advantage

• The mechanical advantage of the wedge and ___________________________________ are similar.

• The ideal mechanical advantage of a wedge is determined by ______________________

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• The ____________________________ and __________________________ a wedge is, the _____________________________ its mechanical advantage.

• For example, the cutting edge of a ______________________________________________ is a wedge.

• When you sharpen a knife, you make the wedge ______________________________ and ______________________________ its mechanical advantage.

• That is why __________________________________________________ than dull knives.

Screws

• Like a wedge, a screw is a simple machine that is related __________________________

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• A screw can be thought of as _________________________________________________

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• This spiral inclined plane forms the ____________________________________________.

How It Works

• When you twist a screw into a piece of wood, you exert ___________________________ on the screw.

• The threads of a screw act like __________________________________________ to _____________________________________________________ over which you exert the input force.

• As the threads of the screw turn, they __________________________________________, pulling the screw into the wood.

• ________________________ between the screw and the wood holds the screw in place.

• Many devices act like screws. Examples include _________________________________

_________________________________________________.

• Look at the jar lid in Figure 15.

• When you turn the lid, your ____________________________ is greatly _________________________________because of the _______________________________

____________________________________________.

• The threads on the lid are pulled against the matching threads on the jar with a strong enough force to ______________________________________________________.

Mechanical Advantage

• The _______________________________________________________ of a screw are, the ____________________________________________________________________.

• This is because the closer the threads are, the __________________________________

________________________to fasten it into a piece of wood.

• Your input force is applied over ___________________________________________.

• The longer input distance results in an _________________________________________.

• Think of the length around the threads as the length of the inclined plane, and the length of the screw as the height of the inclined plane.

• The ideal mechanical advantage of a screw is ____________________________________

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A Paper Screw

• To make a paper model of a screw, cut out a triangle from a piece of paper.

• Tape the wide end of the triangle to a pencil. Then wind the paper around the pencil.

Making Models How does this model represent a real screw? ______________________

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Can you think of a way to calculate the ideal mechanical advantage of your model screw?

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What is the mechanical advantage of your model screw? ___________________________

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• The length around the threads of a screw is the same as the

– height of an incline plane.

– width of an incline plane.

– length of an incline plane.

– output distance of an incline plane