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Project Summary

Difficulty	1
Time required	Average (about one week)
Prerequisites	None
Material Availability	Readily available
Cost	Very Low (under $20)
Safety	No issues

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Abstract

Objective

In this experiment you will search for simple machines used in your daily life and categorize them to see which types of simple machines you use most often.

Introduction

When you have work to do, isn't it nice to have a machine do it for you? Machines make work easier by reducing the amount of effort it takes for you to do a task. Machines change the size or direction of the force required to do the task, called an applied force. The applied force causes an amount of work to be done, and the machine reduces the applied force needed to do the same amount of work saving you the effort. The amount of effort saved when using simple or complex machines is called a mechanical advantage (MA). For example, you can move a larger object by using a lever than pushing on the object by yourself because it takes less effort, like when you use a car jack to lift a car and change the tire.

Simple machines are types of machines that do work with one movement. There are 6 simple machines:

• lever - rod that tilts on a pivot, or fulcrum, to produce a useful action at another point. Examples: pliers, seesaw, wheelbarrow, nail clippers, tweezers.
• inclined plane - sloping surface; it reduces the effort needed to raise loads. Example: ramp.
• screw - shaft with a thread or groove. The screw holds things together by turning and moving into surrounding material. Some gears work with a screw-like motion. Examples: boat propellers and corkscrews.
• wheel and axle - device that turns around a fixed point to act as a rotating lever. Examples: steering wheel, faucet, wrench tightening a bolt, bike wheels, water wheel.
• pulley - grooved wheel that turns on an axle over which a rope, chain, or belt passes. The groove fixes the rope or cable so that it won't slip off. Examples of pulleys in action: stage curtain, elevator, outdoor clothesline.
• wedge - part of a machine with a sloping side that moves to exert force. It differs from the inclined plane by its function: the wedge forces itself between other parts. Nearly all cutting machines make use of the wedge. Examples: scissors (blades act as paired wedges), door wedge, ax, wood chisel.

Sometimes, one simple machine is not enough to complete a task. A series of simple machines can be put together in order to accomplish more complex tasks. Compound machines are two or more simple machines working together. A wheelbarrow is an example of a complex machine that uses a lever and a wheel and axle.

In this experiment, you will search for simple machines used around your house. You will categorize them according to which type(s) of simple machine(s) they are made up of. Which type of simple machine will be the most common?

Terms, Concepts and Questions to Start Background Research

To do this type of experiment you should know what the following terms mean. Have an adult help you search the internet, or take you to your local library to find out more!

• lever
• inclined plane
• screw
• wedge
• pulley
• wheel and axle
• work
• force
• energy

• How do simple machines work?
• What simple machines are in gadgets around my house?
• How are the elements of simple machines used together to perform a task?
• Which type of simple machine is the most common at my house? The least common?

Bibliography

• A very nice site explaining how simple machines can "work" for you from LEGO Education:
  LEGO, 2007. "Connections: Simple Machines," LEGO Education: LEGO Group. [accessed February 3, 2007] http://www.legoeducation.com/content/item.aspx?CategoryID=94&art=14&bhcp=1
• This site has some excellent photos of the basic simple machines:
  MOS, 1997. "Inventor's Toolbox: The Elements of Machines," Museum of Science and The Science Learning Network. [accessed February 3, 2007] http://www.mos.org/sln/Leonardo/InventorsToolbox.html
• This project was adapted from this classroom activity:
  MOS, 1997. "Classroom Activity: Sketching Gadget Anatomy," Museum of Science and The Science Learning Network. [accessed February 3, 2007] http://www.mos.org/sln/Leonardo/SketchGadgetAnatomy.html
• Have fun browsing through this site dedicated to the "INVENTIONS" of Rube Goldberg, whose cartoons are a humorous reminder that simple machines which do simple tasks don't have to be simple at all! Really, do check out the artwork:
  Kennedy, L. 2007. "Rube Goldberg," Rube Goldberg Inc. [accessed February 3, 2007] http://www.rube-goldberg.com

Materials and Equipment

• paper
• pencils with erasers
• The Inventor's Toolbox website for reference
• a selection of small machines with visible working parts (the more you have, the better):
  • egg beater, cork screw, car jack, can opener, garlic press, tongs, monkey wrench, hand drill, Vise-Grips, the mechanism from a music box, wind-up toy, pencil sharpener, stapler, etc...

Experimental Procedure

1. Read through the The Inventor's Toolbox to be sure that you know what simple machines are and look like.
2. Search around your house for gadgets that are built using one or more simple machines like those listed in Materials and Equipment.
3. For each gadget you find, determine which simple machines are used to make it work. Here is an example of how to use a data table to collect this type of information:

   Gadget Name	Lever	Inclined Plane	Screw	Wedge	Pulley	Wheel & Axle
   Corkscrew			X
   Bottle Opener	X			X
   etc...
   Number Found

4. As you look at the gadgets and try to figure out which simple machines they are made out of, it might help to draw them. Making a mechanical drawing can help you to visualize all of the parts of a gadget and how they work. Place the gadget at rest so that you can see all of the parts. Begin sketching diagrams of the machines you see in the gadget. Draw the gadget from one point of view first, and then draw it from different points of view to show all working parts. When the diagram is complete, add arrows and written notes to indicate directions of motion for each part, label the elements of machines involved, and explain connections.
5. Now add up the number of examples for each type of machine in your data table.
6. Make a bar graph of your data. On the left side of the graph (y-axis) make a number scale for the number of gadgets found. On the bottom of the graph (x-axis) write down the six different types of simple machines. Draw a bar up to the number of gadgets that you found for each type of machine.
7. Analyze your data. Which simple machines were in the most gadgets? The least?

Variations

• Take this a step further by improving upon one of the gadgets you found. Can you think of a way to make it work better, or to expand it's function? Make before and after mechanical drawings of your improvements and you could be on your way to a patent!
• Do you have ideas for your own gadgets? See if you can use the concept of simple machines to invent something new. Think about problems that you have around the house doing something. Can you design a machine to do it for you? Again, a good mechanical drawing is important for communicating your idea. You should also build a prototype.
• Can you design a useless invention? A famous cartoonist named Rube Goldberg made cartoons of long, tedious inventions that used many steps to do a simple task. Can you design your own Rube Goldberg machine? If you are in high school, you can even enter to win the annual Rube Goldberg Machine Contest (RGMC).

• For more science project ideas in this area of science, see Mechanical Engineering Project Ideas.

Credits

Sara Agee, Ph.D., Science Buddies

Last edit date: 2007-04-03 22:30:00

Career Focus

If you like this project, you might enjoy exploring careers in Mechanical Engineering.

	CAD Technician CAD (computer-aided design) technicians combine art and engineering to prepare the technical drawings and plans from which everything in the world is made--from toys to toasters, houses to hoses, satellites to sewer systems. CAD technicians are essential to the design and construction of everything you see around you.			Mechanical Engineer Mechanical engineers are part of your everyday life, designing the spoon you used to eat your breakfast, your breakfast's packaging, the flip-top cap on your toothpaste tube, the zipper on your jacket, the car, bike, or bus you took to school, the chair you sat in, the door handle you grasped and the hinges it opened on, and the ballpoint pen you used to take your test. Virtually every object that you see around you has passed through the hands of a mechanical engineer. Consequently, their skills are in demand to design millions of different products in almost every type of industry.
	Mechanical Engineering Technician You use mechanical devices every day—to zip and snap your clothing, open doors, refrigerate and cook your food, get clean water, heat your home, play music, surf the Internet, travel around, and even to brush your teeth. Virtually every object that you see around has been mechanically engineered or designed at some point, requiring the skills of mechanical engineering technicians to create drawings of the product, or to build and test models of the product to find the best design.			Precision Instrument and Equipment Repairer One of the basic truths in the universe is that objects tend to go from a state of higher organization to a state of lower organization over time. In other words, things break down, and when those things are precision instruments or equipment, they require the services of very specialized technicians to restore them to their working order. Precision instrument or equipment technicians often combine a love of music, medicine, electronics, or antiques with delicate mechanical repair work.
	Commercial and Industrial Designer Have you always loved art? Do you have a good eye for beauty, balance, and form? How would you like to see your designs show up in toy stores? Or in a sporting goods store? Or at a car dealer? Commercial and industrial designers create the shape and form of every type of manufactured good that you can think of—from toys, sporting goods, and medical equipment to high technology products, furniture, toothbrushes, and toasters. They design the form of new products that are as beautiful and pleasing to look at as they are functional.

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