logging in or signing up Levers and PulleysPP aSGuest28863 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 111 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: October 19, 2009 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide 1: Levers&Pulleys Slide 2: Load Arm Fulcrum Load Effort Parts of a Lever A lever is a simple machine used to reduce the amount of effort it would take to lift a load or reduce the amount of effort needed to do work.There are 3 types of levers: Class 1, Class 2, and Class 3. The effort needed to lift a load is measured in Newtons. Slide 3: Classes of Levers Slide 4: Class 1 Levers A Class 1 Lever has its fulcrum between the effort and the load. F Slide 5: Class 2 Levers A Class 2 Lever has its load between the effort and the fulcrum. L Slide 6: Class 3 Levers A Class 3 Lever has the effort between the load and the fulcrum. E Slide 7: Levers QuizUse the following slides to quiz yourself on how how well you can match commonly used items with their correct class of lever. Slide 8: Class 1 Class 2 Class3 Click on the correct Lever classification for the tool pictured below. Slide 9: Class 1 Class 2 Class3 Click on the correct Lever classification for the tool pictured below. Slide 10: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 11: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 12: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 13: Class 1 Class 2 Class 3 Slide 14: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 15: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 16: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 17: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 18: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 19: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 20: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 21: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 22: Congratulations! You have successfully matched the common hand tools with their correct classification of lever. Be sure to remember: F L E 1 2 3 : Levers and Advantage Slide 24: Levers can provide Mechanical Advantage by reducing the effort needed to lift a load. The closer the fulcrum is to the load, the less effort is needed to lift the load. The load does not move a great distance. E L F Slide 25: Levers can be used to move loads farther if the fulcrum is placed close to the effort. In this situation more effort is needed to lift the load, but the load will move farther than if the fulcrum was closer to the load. F E L Slide 26: Pulleys Slide 27: Single Fixed Pulley This pulley provides the user Directional Advantage, allowing someone to pull down to lift the load up. Is Mechanical Advantageprovided with this system? No, the effort needed to lift this load is equal to the weight of the load. This is because the load is supported by only 1 rope arm. You must also pull an amount of rope equal to the height you wish to lift the load Slide 28: Single Moveable Pulley This pulley system provides Mechanical Advantage, requiring only ½ the effort needed to lift the weight of the load. If the load weighs 20 lbs, only 10 lbs of effort is needed to lift it. Can you tell why? The load is supported by 2 rope arms under the pulley. Each load arm supports half the weight of the load, so the arm pulling up uses only 10 lbs of effort to lift this load. You must pull twice as much rope as desired to lift the load a certain height. Example: Pull 2 ft of rope for each 1 foot of height that you want to lift the load. Slide 29: Single Fixed/Single Moveable Pulley This pulley system combines the properties of their single components into a system that provides both Mechanical and Directional Advantage.Do you see how this happens? How much rope must you pull? This pulley provides Directional Advantage by allowing the user to pull down to lift the load. It also provides Mechanical Advantage by using 2 rope arms to support the load, reducing the effort needed to lift the load by ½.In this system you pull 2 times as much rope for every unit of height that you want to lift the load. Slide 30: Pulley Power! Single-Fixed Pulleys provide or Directional Advantage. You can make use of Counter-Weights in order to reduce your effort needed to lift the load. However, your effort PLUS the the counter-weight together must be equal to or be more than the weight of the load being lifted. Single-Moveable Pulleys provide Mechanical Advantage. You must pull 2 times the distance in rope that you wish to lift the load because the load is supported by 2 rope arms. You gain a Mechanical Advantage of 2 because you are using only ½ as much effort to lift the load. Combining Single-Fixed and Single-Moveable into Compound Pulley Systems allows the user to gain both Mechanical and Directional Advantage. The more rope arms supporting the load the greater the Mechanical Advantage. Slide 31: Inclined Planes, Screws, and Wedges Slide 32: An Inclined Plane is a simple machine that helps reduce the effort needed to move a load. Instead of picking up this load and lifting it straight upwards, the load can be pushed along an elevated plane. The user must move the load a greater distance, but the effort needed to move it will be less. Slide 33: Inclined Plane Wrapped around post = Screw Screw A Screw is really an Inclined Plane wrapped around a center post. Slide 34: Wedge Two Inclined Planes meeting together to create a sharp edge creates a Wedge. edge Slide 35: Wedges can be put to use in a variety of ways. The tips of screws, nails, and needles are wedges. Axes, splitting mauls, and picks have wedge edges. Scissors blades, pruning shears, and hand-held grass clippers all have wedge shaped blades. Planers have wedge shaped shapes for shaving wood particles. You will find many more examples if you take a closer look at many of the common tools used around your own house. Wedges are just one form of Simple Machine that helps us do work more easily. Slide 36: Simple Machines allow users to more easily accomplish work. This PowerPoint presentation is a tool that you can use to review these concepts and prepare for the upcoming FOSS Assessment for theLevers and Pulleys module. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Levers and PulleysPP aSGuest28863 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 111 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: October 19, 2009 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide 1: Levers&Pulleys Slide 2: Load Arm Fulcrum Load Effort Parts of a Lever A lever is a simple machine used to reduce the amount of effort it would take to lift a load or reduce the amount of effort needed to do work.There are 3 types of levers: Class 1, Class 2, and Class 3. The effort needed to lift a load is measured in Newtons. Slide 3: Classes of Levers Slide 4: Class 1 Levers A Class 1 Lever has its fulcrum between the effort and the load. F Slide 5: Class 2 Levers A Class 2 Lever has its load between the effort and the fulcrum. L Slide 6: Class 3 Levers A Class 3 Lever has the effort between the load and the fulcrum. E Slide 7: Levers QuizUse the following slides to quiz yourself on how how well you can match commonly used items with their correct class of lever. Slide 8: Class 1 Class 2 Class3 Click on the correct Lever classification for the tool pictured below. Slide 9: Class 1 Class 2 Class3 Click on the correct Lever classification for the tool pictured below. Slide 10: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 11: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 12: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 13: Class 1 Class 2 Class 3 Slide 14: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 15: Class 1 Class 2 Class 3 Click on the correct Lever classification for the tool pictured below. Slide 16: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 17: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 18: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 19: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 20: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 21: Click on the correct Lever classification for the tool pictured below. Class 1 Class 2 Class 3 Slide 22: Congratulations! You have successfully matched the common hand tools with their correct classification of lever. Be sure to remember: F L E 1 2 3 : Levers and Advantage Slide 24: Levers can provide Mechanical Advantage by reducing the effort needed to lift a load. The closer the fulcrum is to the load, the less effort is needed to lift the load. The load does not move a great distance. E L F Slide 25: Levers can be used to move loads farther if the fulcrum is placed close to the effort. In this situation more effort is needed to lift the load, but the load will move farther than if the fulcrum was closer to the load. F E L Slide 26: Pulleys Slide 27: Single Fixed Pulley This pulley provides the user Directional Advantage, allowing someone to pull down to lift the load up. Is Mechanical Advantageprovided with this system? No, the effort needed to lift this load is equal to the weight of the load. This is because the load is supported by only 1 rope arm. You must also pull an amount of rope equal to the height you wish to lift the load Slide 28: Single Moveable Pulley This pulley system provides Mechanical Advantage, requiring only ½ the effort needed to lift the weight of the load. If the load weighs 20 lbs, only 10 lbs of effort is needed to lift it. Can you tell why? The load is supported by 2 rope arms under the pulley. Each load arm supports half the weight of the load, so the arm pulling up uses only 10 lbs of effort to lift this load. You must pull twice as much rope as desired to lift the load a certain height. Example: Pull 2 ft of rope for each 1 foot of height that you want to lift the load. Slide 29: Single Fixed/Single Moveable Pulley This pulley system combines the properties of their single components into a system that provides both Mechanical and Directional Advantage.Do you see how this happens? How much rope must you pull? This pulley provides Directional Advantage by allowing the user to pull down to lift the load. It also provides Mechanical Advantage by using 2 rope arms to support the load, reducing the effort needed to lift the load by ½.In this system you pull 2 times as much rope for every unit of height that you want to lift the load. Slide 30: Pulley Power! Single-Fixed Pulleys provide or Directional Advantage. You can make use of Counter-Weights in order to reduce your effort needed to lift the load. However, your effort PLUS the the counter-weight together must be equal to or be more than the weight of the load being lifted. Single-Moveable Pulleys provide Mechanical Advantage. You must pull 2 times the distance in rope that you wish to lift the load because the load is supported by 2 rope arms. You gain a Mechanical Advantage of 2 because you are using only ½ as much effort to lift the load. Combining Single-Fixed and Single-Moveable into Compound Pulley Systems allows the user to gain both Mechanical and Directional Advantage. The more rope arms supporting the load the greater the Mechanical Advantage. Slide 31: Inclined Planes, Screws, and Wedges Slide 32: An Inclined Plane is a simple machine that helps reduce the effort needed to move a load. Instead of picking up this load and lifting it straight upwards, the load can be pushed along an elevated plane. The user must move the load a greater distance, but the effort needed to move it will be less. Slide 33: Inclined Plane Wrapped around post = Screw Screw A Screw is really an Inclined Plane wrapped around a center post. Slide 34: Wedge Two Inclined Planes meeting together to create a sharp edge creates a Wedge. edge Slide 35: Wedges can be put to use in a variety of ways. The tips of screws, nails, and needles are wedges. Axes, splitting mauls, and picks have wedge edges. Scissors blades, pruning shears, and hand-held grass clippers all have wedge shaped blades. Planers have wedge shaped shapes for shaving wood particles. You will find many more examples if you take a closer look at many of the common tools used around your own house. Wedges are just one form of Simple Machine that helps us do work more easily. Slide 36: Simple Machines allow users to more easily accomplish work. This PowerPoint presentation is a tool that you can use to review these concepts and prepare for the upcoming FOSS Assessment for theLevers and Pulleys module.