Simple Machines Group DD
Screw: A Simple Machine By: Mike Zombro
What is a screw? A screw is a simple machine that allows you to combine objects. It is usually made of steel and used to combine objects. They come in a large variety of sizes. A screw is used by twisting it into either a whole that is already made with a screwdriver or by making a whole with it using a drill.
Ideal mechanical advantage The ideal mechanical advantage of a screw is for it to successfully hold two objects together. It holds them together by being screwed in a by a screwdriver in order for it to stay in place do to the spirals around the outside if the screw. This causes the screw to have a better hold on the two objects and causes it to not let go or come undone easily.
How does it change the force? The screw changes the force because it goes from have two pieces of anything just there and then when the screw is placed in you combine these objects and they become 1 in that they will not come apart unless the screw is manually taken out, or they are broken apart with an even stronger force.
Mechanical Advantage The formula for mechanical advantage is, Output force Input force So if a it takes you 10n effort to put a screw into a piece of wood with a resistance of 5n the mechanical advantage would be 2.
Compound Machine #1
Wedges Alex Donmoyer
What does it do? A wedge can be used to separate two objects, lift an object, or hold an object in place. A wedge can be used to separate two objects, lift an object, or hold an object in place.
How does it work? It works by converting a force applied to its blunt end into forces perpendicular to its length. It works by converting a force applied to its blunt end into forces perpendicular to its length.
Mechanical Advantage To find the mechanical advantage, you take the length of the slope and divide it by the thick part of the wedge. To find the mechanical advantage, you take the length of the slope and divide it by the thick part of the wedge. For example, if the slope of the wedge is 6 inches and the length of the thick part is 2 inches, then the mechanical advantage would be three. For example, if the slope of the wedge is 6 inches and the length of the thick part is 2 inches, then the mechanical advantage would be three.
Scissors use two levers and the cutting edges are wedges Scissors use two levers and the cutting edges are wedges
The axe consists of a lever and a wedge. The axe consists of a lever and a wedge.
A screwdriver consists of a wheel and axel at one end and a wedge at the other. A screwdriver consists of a wheel and axel at one end and a wedge at the other.
Bibliography op%5C441axe.jpg op%5C441axe.jpg op%5C441axe.jpg op%5C441axe.jpg drivers/red-screwdriver.png drivers/red-screwdriver.png drivers/red-screwdriver.png drivers/red-screwdriver.png alcheaptools.com/i/Wedges/Brass_Wedge.jpg&imgrefurl = m&usg=__tESVg92DPUC1PbsHRRwiJwNT- CA=&h=187&w=300&sz=7&hl=en&start=4&um=1&tbni d=G2GgoXLdl_df6M:&tbnh=72&tbnw=116&prev=/imag es%3Fq%3Dwedge%2Bmechanical%2Bdevice%26hl%3 Den%26safe%3Dactive%26sa%3DX%26um%3D1 alcheaptools.com/i/Wedges/Brass_Wedge.jpg&imgrefurl = m&usg=__tESVg92DPUC1PbsHRRwiJwNT- CA=&h=187&w=300&sz=7&hl=en&start=4&um=1&tbni d=G2GgoXLdl_df6M:&tbnh=72&tbnw=116&prev=/imag es%3Fq%3Dwedge%2Bmechanical%2Bdevice%26hl%3 Den%26safe%3Dactive%26sa%3DX%26um%3D1 alcheaptools.com/i/Wedges/Brass_Wedge.jpg&imgrefurl = m&usg=__tESVg92DPUC1PbsHRRwiJwNT- CA=&h=187&w=300&sz=7&hl=en&start=4&um=1&tbni d=G2GgoXLdl_df6M:&tbnh=72&tbnw=116&prev=/imag es%3Fq%3Dwedge%2Bmechanical%2Bdevice%26hl%3 Den%26safe%3Dactive%26sa%3DX%26um%3D1 alcheaptools.com/i/Wedges/Brass_Wedge.jpg&imgrefurl = m&usg=__tESVg92DPUC1PbsHRRwiJwNT- CA=&h=187&w=300&sz=7&hl=en&start=4&um=1&tbni d=G2GgoXLdl_df6M:&tbnh=72&tbnw=116&prev=/imag es%3Fq%3Dwedge%2Bmechanical%2Bdevice%26hl%3 Den%26safe%3Dactive%26sa%3DX%26um%3D1
David Hinkle Pd. 3
Explanation A wheel and axle is a lever that rotates in a circle around a center point or fulcrum.
Equation MA=r of wheel/r of Axle
Change in Force The change in force is when you apply force to the axle to turn the wheel. For example: A screwdriver is like a wheel and axle, the blade is wider then a screw, but it still takes some force to turn the screw if the handle was wider then it would be much easier to turn the screw.
Examples of Wheel and Axles Doorknobs Roller Skates Faucet handles Wagon Toy Car Screwdriver Ferris Wheel Wave swinger
Change in Force This simple machine gets rid of energy released as vertical displacement, and it also gets rid of friction in the horizontal.
Mechanical Advantage of Wheels and Axles It has to deal with the ratio of the proportions of the diameter of the axle and the wheel. For instance if the wheel is 4 times greater then the axle, then every time you turn the wheel the force will be 4 times greater for each turn.
Compound Machines w/ Wheels and Axles Bicycle Screw Lever Pulley
Compound Machines w/ Wheels and Axles Wheelbarrow Levers
Compound Machines w/ Wheels and Axles Car Lever Pulley Inclined Plane Screw
Bibliography nes/sciber/machine7.htm nes/sciber/machine7.htm This website was a generic overview of what a wheel and axle was use for and it demonstrates how a fulcrum works. This was a complete background of how Wheels and Axles came to be invented. And also where I got the mechanical advantage equation. html html This site explained how screwdrivers and faucets are considered wheels and axles because of what actions they perform.
Bibliography (Con’t) _machines/wheel_and_axle.htm _machines/wheel_and_axle.htm This site explained how the wheel and axle has a mechanical advantage. axle_change_its_force axle_change_its_force The change in force. size1/17103.gif size1/17103.gif Just used this site for a picture.
Matt Nolan Pd. 3
A wheel that usually has a groove around the outside edge. This groove is for a rope or belt to move around the pulley. Pulling down on the rope lifts an object attached to the rope. Work is made easier because pulling down on the rope is made easier due to gravity.
MA=distance over which effort is applied distance over which the load Is moved
3 Pulley Sytem that reduces the lifting force by 30 times. This system allows you to pull a lot more weight then just one pulley.
Wedge and Pulley The pulley in this picture helps to bring the car up the incline of the wedge without the pulley there would be a lot more stress made trying to get the car up the block of wood.
Bicycle Wheel and Axle Screw Lever The pulley system which helps turn the wheel easier without the pulley system you would not be able to turn the wheels. And the lever acts as the brake which is usually a hand brake.
Incline Laura Blauch
Definition: An incline plane is a plane surface that is set at an angle, which is not a 90 degree angle, up on a horizontal surface, (ramp).
Mechanical Advantage of an incline… An inclined plane will help lower the amount of force needed to move an object a certain distance at an upward angle.
Inclines change force… Inclines can change the force of the object by changing the angle of the incline. The bigger the incline angle, the more force is needed to move the object.
Finding Mechanical Advantage… To find the mechanical advantage of an inclined plane you take the length of the incline divided by its height. Example: if an inclines length is 30m, and the height is 5m, what is the mechanical advantage of the incline?
Compound Machine #1 Wheel barrel –Wheel and axle and incline
Compound Machine #2 Escalator Gear and incline
Compound Machine #3 Screw A spiral inclined plane, that has to be moving to work as an inclined plane.
Bibliography –This website helped to show me what a compound machine of an incline could be, which is a wheel barrel. (used) nes.htmhttp:// nes.htm –this website gave me a good definition of what a compound machine is. (used) onlist/default.php?sectiondetailid=11887&PHPSESSID=5dfcae34f3a0b435b 0579d594a2d6184http://washingtonville.ny.schoolwebpages.com/education/components/secti onlist/default.php?sectiondetailid=11887&PHPSESSID=5dfcae34f3a0b435b 0579d594a2d6184 –This website explained in more detail what exactly an incline works. –This website showed me the mechanical advantage of an incline. (used) ne2.htmhttp:// ne2.htm –This website showed me more visual images of an incline plane.
Lever Mursal Sekandari
Simple Machine: Lever Lever is a simple machine. It consists of a bar that supports at some points along its length. At the second point, it is used to overcome resistance by applying a force at the third point. Fulcrum is the stationary point of which the lever rotates around. The basic principle of lever is two equal forces acting in the opposite directions.
Different Types of Class of Levers There are three different classes of lever. First-class, Second-class Third class.
First-Class Lever A first-class lever has the fulcrum located between the input effort and the output load. Force is applied by either pulling or pushing, which causes the lever to swing and overcoming the resistance force on the opposite side.
Second-Class Lever In a second class lever, the fulcrum is located at the end of the bar and the input effort is located at the other end of the bar.
Third-class Lever In third class levers, effort is applied between the output load on one end and the fulcrum on the opposite end. This one is different than the other two class levers because the input is higher than the output load.
Examples of a Lever First-class Hammer claw Sea-saw Bicycle hand brake Scissors Wheel and axle Second Class Paddle Bottle openers Doorknobs Nutcrackers Wrench Third Class Baseball bat Shovel Thongs Tweezers Hammer Nail clipper Fishing rod
Advantage of this simple machine Some advantage of using this simple machine is picking up a heavy rock, or using it to lift the television. It is also used to have fun at the park, sea-saw. Or as illustrated in this picture, a can of paint. Equation: effort arm resistance arm
Changing force The simple machine changes the force by applying effort on one side and the load also receiving the force and moving as well.
Example When watching a circus act, you notice the tumblers using a first class lever and wonder how if one of them jumps, it can propel two of them into the air. When the tumbling lever is measured, it shows the effort arm is 8 meters long, the resistance arm is 2 meters long. What is the mechanical advantage of this lever? To do this problem you have to know what equation to use. MA = effort arm / resistance arm MA = 8m / 2m MA = 4
Compound Machine #1: Scissors
Compound Machine #2:
Compound Machine #3:
Bibliography It just simply told me about what a lever is and the three types of class. It provides information that helps to explain lever further more. It gave examples of compound machines. s/sciber/machines.htm s/sciber/machines.htm Helped me with learning what the difference is between simple and compound machines. This site had information on compound and simple machines.