1. Monday, November 3 rd Entry Task List the machines you used this morning as you got ready for school. Schedule: Intro to Chapter 14Intro to Chapter 14 14.1 Machines help people do work14.1 Machines help people do work Homework: Finish vocabularyFinish vocabulary Objective: I will explain how machines help people do work I will explain how machines help people do work Please have on desk: Pencil, calculatorPencil, calculator

2. Machine Pictures Answer the following questions about each picture. 1.What is this machine designed to do? 2.Without a machine, how would humans do the job?

3. Backhoe

4. Crane

5. Table Saw

6. Truck

7. Tuesday, November 4 th Entry Task Describe the two ways that machines help people do work. Schedule: Mechanical Advantage & Efficiency MathMechanical Advantage & Efficiency Math Homework: M A & Efficiency mathM A & Efficiency math Objective: I can calculate mechanical advantage & efficiency I can calculate mechanical advantage & efficiency Please have on desk: Chapter 14 vocab and notesChapter 14 vocab and notes

8. Machines can change force Machines can change force Machines can change size of force Machines can change size of force Machines Help People Do Work

9. Machines can change distance over which force is applied

10. Machines Help People Do Work Machines can change direction of force Machines can change direction of force

11. Mechanical Advantage Mechanical Advantage Machines give people an advantage…they make work easier Machines give people an advantage…they make work easier MA = Output Force MA = Output Force Input Force If Output force is large and Input force is small, the machine is better (Gives greater MA) Machines Help People Do Work

12. Calculate MA Mr. Brownlee is trying to lift shingles to the top of his roof. Each bundle weighs 200 N (Output Force). He sets up a pulley system that reduces his input force to 40 N. What is the MA of the pulley system? Mr. Brownlee is trying to lift shingles to the top of his roof. Each bundle weighs 200 N (Output Force). He sets up a pulley system that reduces his input force to 40 N. What is the MA of the pulley system?

13. Wednesday, November 5 th Entry Task A machine has an input force of 150 N and a mechanical advantage of 0.5. What is the output force? Please have on desk: 14.1 Notes14.1 Notes Mech Adv MathMech Adv Math Homework: Read 14.2Read 14.2 Objective: I will demonstrate my understanding of 14.1 Schedule: Review MA and Efficiency MathReview MA and Efficiency Math 14.1 Quiz14.1 Quiz

14. Thursday, November 6 th Entry Task A person is doing 1000 joules of work on a hammer to pry up a nail. The hammer does 925 joules of work on the nail to pull it out of the wood. What is the efficiency of the hammer? Schedule: Inclined plane notes and mathInclined plane notes and math Inclined plane activityInclined plane activity Homework: Complete activity if not finished in classComplete activity if not finished in class Objective: I will calculate the mechanical advantage of an inclined plane Please have on Desk: Pencil, journalPencil, journal

15. 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 ramp. For example, a ramp makes it much easier to push a grocery cart over a curb. A ramp is an example of a simple machine called an inclined plane. An inclined plane is a flat, sloped surface.

16. How It Works An inclined plane allows you to exert your input force over a longer distance. As a result, the input force needed is less than the output force. The input force that you use on an inclined plane is the force with which you push or pull an object. The output force is the force that you would need to lift the object without the inclined plane. Recall that this force is equal to the weight of the object.

17. Mechanical Advantage You can determine the ideal mechanical advantage of an inclined plane by dividing the length of the incline by its height. Ideal Mechanical Advantage = Length of Incline ÷ Height of Incline

18. For example, if you are loading a truck that is 1 meter high using a ramp that is 3 meters long, the ideal mechanical advantage of the ramp is 3 meters ÷ 1 meter, or 3. The inclined plane increases the force you exerted three times. If the height of the incline does not change, increasing the length of the incline will increase the mechanical advantage. The longer the incline, the less input force you need to push or pull an object.

19. Although the amount of work is the same whether you lift the boxes or push them up the ramp to the truck, you need less force when you use an inclined plane. When you use a ramp, what happens to the distance over which you exert your force?

20. Wedge If you’ve ever sliced an apple with a knife, pulled up a zipper, or seen someone chop wood with an ax, you are familiar with another simple machine known as a wedge. A wedge is a device that is thick at one end and tapers to a thin edge at the other end. It might be helpful to think of a wedge, like the one shown below, as an inclined plane (or sometimes two inclined planes back to back) that can move.

21. The Forces on a Wedge The input force exerted on a wedge results in output forces that can split the log.

22. You have probably never given much thought to the zippers on your clothes. But zippers use wedges to push the two sides apart.

23. How It Works When you use a wedge, instead of moving an object along the inclined plane, you move the inclined plane itself. For example, when an axe is used to split wood, the axe handle exerts a force on the blade of the axe, which is the wedge. That force pushes the wedge down into the wood. The wedge in turn exerts an output force at a 90° angle to its slope, splitting the wood in two.

24. Wedges are a part of your everyday life. For example, a zipper depends on wedges to close and open. A pencil sharpener, a cheese grater, and a shovel all make use of wedges.

25. Mechanical Advantage The mechanical advantage of the wedge and the inclined plane are similar. The ideal mechanical advantage of a wedge is determined by dividing the length of the wedge by its width. The longer and thinner a wedge is, the greater its mechanical advantage.

26. For example, the cutting edge of a steel carving knife is a wedge. When you sharpen a knife, you make the wedge thinner and increase its mechanical advantage. That is why sharp knives cut better than dull knives.

27. Friday, November 7 th Entry Task Explain the force/distance trade-off that allows an inclined plane to help people do work. Schedule: Lever notesLever notes Math practiceMath practice Objective: I will calculate the mechanical advantage of a lever I will calculate the mechanical advantage of a lever Homework Complete the math practice if not finished in classComplete the math practice if not finished in class Please have on Desk: Inclined plane activityInclined plane activity Journal and pencilJournal and pencil