Forces, Waves, and Electricity

1. Forces, Waves, and Electricity Georgia High School Graduation Test: Science Review

2. Speed and Velocity • Speed = distance divided by time s = d/t • Units of speed = m/s • Velocity = speed in a given direction • Example: • 55 mph • 55 mph north = speed, no direction = velocity, speed & direction

3. What is Newton's First Law of Motion? iRespond Question Multiple Choice F A.) An object at rest will remain at rest B.) An object at rest will remain at rest and an object in constant motion on by an balanced force. C.) An object at rest will remain at rest and an object in constant motion will remain in constant motion unless acted on by an unbalanced force. D.) all of the above E.)

4. What is friction? iRespond Question Multiple Choice F A.) a push or a pull B.) direction of acceleration C.) sum of all forces acting on an object D.) force that always opposes motion E.)

5. iRespond Question Multiple Choice F A.) B.) C.) D.) E.)

6. What is mass? measure of the amount of matter in an object measured in kilograms does not depend on location an object’s mass on Earth is the same as its mass on the Moon iRespond Question Multiple Choice F A.) measure of the amount of matter in an object B.) measured in kilograms C.) an object’s mass on Earth is the same as its mass on the Moon D.) A and C E.) All of the above

7. What is weight? iRespond Question Multiple Choice F A.) measure of the force of gravity on an object B.) measured in Newtons C.) measured in Newtons D.) All of the above E.) D and C only

8. What is an attractive force between two objects that have mass? iRespond Question Multiple Choice F A.) force B.) speed C.) velocity D.) gravity E.)

9. What is Newton's 3rd law of motion? iRespond Question Multiple Choice F A.) For every action, there is an equal but same reaction B.) For every action, there is an equal but opposite reaction C.) For every action, there is an unequal but opposite reaction D.) For every second action, there is an equal but opposite reaction E.)

10. What is Newton's second law of motion? iRespond Question Multiple Choice F A.) Force = anit-speed x acceleration B.) Force = velocity x acceleration C.) Force = speed x acceleration D.) Force = mass x acceleration E.)

11. What is net force? iRespond Question Multiple Choice F A.) a push or a pull B.) sum of all forces acting on an object C.) direction of acceleration D.) force that always opposes motion E.)

12. What is force? iRespond Question Multiple Choice F A.) always opposes motion B.) a push or a pull C.) sum of all forces acting on an object D.) direction of acceleration E.)

13. What is acceleration? iRespond Question Multiple Choice F A.) units of speed B.) rate at which velocity changes C.) Units of acceleration = m/s2 D.) velocity standing still E.)

14. What is Velocity? iRespond Question Multiple Choice F A.) Units of cells B.) Units of speed C.) s = d/t D.) speed in a given direction E.)

15. What is speed? iRespond Question Multiple Choice F A.) Units of speed B.) speed in a given direction C.) distance divided by time D.) rate at which velocity changes E.)

16. Distance versus Time Graph • AKA position versus time graph • Straight line represents constant (uniform) speed

17. Acceleration • Acceleration = rate at which velocity changes • Involves a change in speed OR direction a = (vf – vi )/ t • Units of acceleration = m/s2 • Example: 0 to 60 mph in 5 seconds • For acceleration to occur a net (unbalanced) force must be applied

18. Distance versus Time Graph Revisited • Non-linear graph represents acceleration • Parabola = constant acceleration

19. Sample Question #1 • Use the equations for velocity and acceleration to solve the following examples: • A ball rolls in a straight line very slowly across the floor traveling 1.0 meter in 2.0 seconds. Calculate the velocity of the ball. • Answer: v = 0.50 m/s • If the ball from the above question rolls to a stop in 2.0 seconds, calculate the acceleration (deceleration) of the ball. • Answer: a = -0.25 m/s2

20. Forces • Force = a push or a pull • Net Force = sum of all forces acting on an object • Free-body diagram shows all forces with vector arrows • Direction of force = direction of acceleration • Friction is a force that always opposes motion

21. Determining the Net Force

22. Newton’s 1st Law of Motion • An object at rest will remain at rest and an object in constant motion will remain in constant motion unless acted on by an unbalanced force. • Reason for seatbelts

23. Newton’s 2nd Law of Motion • Force = mass x acceleration F = ma

24. Newton’s 3rd Law of Motion • For every action, there is an equal but opposite reaction • Examples: • Punch a wall, it punches back • Rocket propulsion

25. Gravity • Gravity = attractive force between two objects that have mass • Makes falling objects accelerate (g = 9.8 m/s2) • Depends on mass and distance

26. Sample Question #2 • What causes an object to accelerate as it falls? • Answer: The force of gravity causes an object to accelerate at a rate of 9.8 m/s2 toward Earth.

27. MASS measure of the amount of matter in an object measured in kilograms does not depend on location an object’s mass on Earth is the same as its mass on the Moon WEIGHT measure of the force of gravity on an object measured in Newtons does depend on location an object’s weight on Earth is more than its weight on the Moon Mass versus Weight

28. Sample Question #3 • Explain the difference between mass and weight. • Answer: Mass is the quantity of matter of an object while weight is the measure of the force of gravity on that object. Mass is conserved while weight may change depending on location.

29. Energy and Work • Energy = The ability to do work • Work = transfer of energy by applying a force to move an object W = Fd where force and distance are in same direction • Both work and energy are measured in Joules (J)

30. Examples of Work and No Work • Hammer applies a force to move the nail in the same direction = WORK • Waiter applies a force upward while the tray moves forward = NO WORK

31. Sample Question #4 • Use the formula for work to solve the following example: • A woman picks up her 10 Newton child lifting him 1 meter. She then carries him 5 meters across the room. How much work is done on the child? • Answer: 10 Joules • the 5 meters is not added to the 1 meter because the distance moved (5 meters) is perpendicular to the force applied

32. Mechanical Advantage • Mechanical Advantage is a value that shows how useful the machine is. It shows the ratio of work into the machine compared to work out of the machine. • The larger the mechanical advantage the more work the machine is doing compared to you. It should always be larger than 1. • There are no units for mechanical advantage because they cancel in the calculation.

33. Types of Mechanical Energy • Kinetic = energy of motion • Potential = stored energy due to position

34. Conservation of Energy

35. Light • Light is a form of electromagnetic radiation (EM) • EM spectrum shows the forms of radiation in order of increasing frequency (and energy) and decreasing wavelength

36. Color of Light • We see different colors depending on the frequency of light emitted or reflected • This is the reason blue flames are hotter than yellow. Blue has a higher frequency so more energy.

37. Sample Question #5 • How are the frequency and wavelength related to the energy carried by waves? • Answer: Higher frequency waves have more energy while longer wavelength waves have less energy. Frequency and energy are directly related while wavelength and energy are inversely related. Radio waves (long wavelength) have less energy than gamma waves (high frequency).

38. Sample Question #6 • How are frequency and wavelength related? • Answer: Frequency and wavelength are inversely related. High frequency waves have short wavelengths.

39. EM WAVE does not require matter to transfer energy CAN travel through a vacuum example: light MECHANICAL WAVE does require matter to transfer energy CANNOT travel through a vacuum example: sound Electromagnetic Wave (EM) versus Mechanical Wave

40. Sample Question #7 • Compare electromagnetic and mechanical waves. • Answer: Electromagnetic waves (light) do not require matter to transfer energy while mechanical waves (sound) require matter to transfer energy. In other words, EM waves will travel in a vacuum while mechanical waves will not.

41. Reflection of Light • When light strikes a boundary, it reflects. • The angle at which the wave approaches a flat reflecting surface is equal to the angle at which the wave leaves the surface (like a bounce pass of a basketball). • Reflection results in image formation.

42. Refraction of Light • Light waves travel faster in air than in water and slower in glass than water. • More dense = slower light • When light enters a different medium, speed changes and it bends. • Bending of light due to change in speed = REFRACTION

43. Wave Interference • the phenomenon which occurs when two waves meet while traveling along the same medium • constructive = waves add to produce a larger wave • destructive = waves cancel to produce a smaller wave CONSTRUCTIVE DESTRUCTIVE

44. The Doppler Effect • observed whenever the source of waves is moving with respect to an observer • an apparent change in frequency occurs • toward = higher frequency • away = lower frequency

45. Electricity • Electrons carry a negative charge. • Lost electrons = positive charge • Gained electrons = negative charge • REMEMBER: • Like charges repel • Opposites attract

46. Electrical Circuits SERIES • Current flows in a closed circuit • Ohm’s Law • V = IR • Two types of circuits: • Series (single path) • Parallel (poly paths) PARALLEL

47. Electromagnet • One can make an electromagnet with a nail, battery, and wire • When current flows through the coiled wire, the nail becomes magnetized.

48. Discussion • Aristotle claimed that objects fell at a rate proportional to their weight, so that heavier objects fell faster than lighter objects. Explain why you think he was correct or he was wrong. How could one determine whether or not he was correct?

49. Lesson Summarized • Write a sentence that explains the system being discussed. • Draw a graphic organizer for each system in this lesson. Show the relationship of the parts of the system to the whole within each system.

50. Short Quiz Answers • A force is a push or a pull. Unbalanced (net) forces result in acceleration. • The object ejected from a spacecraft near Earth will most likely fall into the Earth due to gravity while the object ejected in deep space will travel at a constant speed until acted on by an unbalanced force (Newton's First Law of Motion). • Sound and ocean waves are both mechanical waves because they both require matter to transmit energy. • Light and sound both transfer energy, but light does not require matter to transfer energy while sound does. In other words, light waves will travel in a vacuum while sound waves will not.