Presentation is loading. Please wait.

Presentation is loading. Please wait.

Motion Equations Mr. Kings Science Class. WORK WORK = FORCE X DISTANCE.

Published byLeah Turner Modified over 11 years ago

Similar presentations

Presentation on theme: "Motion Equations Mr. Kings Science Class. WORK WORK = FORCE X DISTANCE."— Presentation transcript:

1 Motion Equations Mr. Kings Science Class

2 WORK WORK = FORCE X DISTANCE

3 WORK Feet or cm

4 WORK WORK = FORCE X DISTANCE Feet or cm Pounds or grams

5 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters

6 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters 10 cm

7 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters 10 cm X

8 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters 10 cm X 20 g

9 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters 10 cm X 20 g =

10 WORK WORK = FORCE X DISTANCE Feet or centimeters Pounds or grams Foot pounds or gram centimeters 10 cm X 20 g = 200 joules

11 WORK Lets try a word problem! Johneal pulled a 100 gram weight using a spring scale up the smooth side of a chalk board. The spring scale read 80 grams as she pulled it evenly 25 centimeters. How much work did Johneal do?

12 WORK Lets try a word problem! Johneal pulled a 100 gram weight using a spring scale up the smooth side of a chalk board. The spring scale read 80 grams as she pulled it evenly 25 centimeters. How much work did Johneal do? WORK = FORCE X DISTANCE

13 WORK Lets try a word problem! Johneal pulled a 100 gram weight using a spring scale up the smooth side of a chalk board. The spring scale read 80 grams as she pulled it evenly 25 centimeters. How much work did Johneal do? WORK = FORCE X DISTANCE ? = 80g X 25cm

14 WORK Lets try a word problem! Johneal pulled a 100 gram weight using a spring scale up the smooth side of a chalk board. The spring scale read 80 grams as she pulled it evenly 25 centimeters. How much work did Johneal do? WORK = FORCE X DISTANCE ? = 80g X 25cm ? = 2,000 joule

15 POWER

16 POWER Power

17 POWER Power =

18 POWER Work

19 POWER Power = Work

20 POWER Power = Work Time

21 POWER Power = Work Time Watt

22 POWER Power = Work Time Watt Joules

23 POWER Power = Work Time Watt Joules Seconds

24 POWER Power = Work Time Watt Joules Seconds

25 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as she pulled it evenly 25 centimeters. How Much work did Trevor do?

26 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm

27 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules

28 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules POWER = WORK TIME

29 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules POWER = WORK TIME

30 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules POWER = WORK TIME 2000 joules

31 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules POWER = WORK TIME 2000 joules 5 seconds

32 Now, lets try a problem! Trevor pulled a 100 gram weight using a spring scale up the smooth side of a chalk board in 5 s. The spring scale read 80 grams as he pulled it evenly 25 centimeters. How Much work did Trevor do? WORK = FORCE X DISTANCE = 80 grams x 25 cm = 2000 joules POWER = WORK TIME 2000 joules 5 seconds 400 watts

33 Velocity

34 Velocity VELOCITY

35 Velocity VELOCITY =

36 Velocity DISTANCE

37 Velocity VELOCITY = DISTANCE

38 Velocity VELOCITY = DISTANCE TIME Miles or meters

39 Velocity VELOCITY = DISTANCE TIME Miles or meters Seconds or hours

40 Velocity VELOCITY = DISTANCE TIME Miles or meters Seconds or hours Miles per hour Meter per second

41 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity?

42 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY

43 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY =

44 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE

45 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE

46 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE TIME

47 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE TIME 600 meters

48 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE TIME 600 meters 50 seconds

49 Lets now try a problem! Ryan ran 600 meter in 50 seconds, what is his Velocity? VELOCTIY = DISTANCE TIME 600 meters 50 seconds 12 meters/second

50 ACCELERATION

51 ACCELERATION ACCELERATION

52 ACCELERATION ACCELERATION =

53 ACCELERATION VELOCITY ENDING

54 ACCELERATION ACCELERATION = VELOCITY ENDING

55 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING

56 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME

57 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME

58 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour

59 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour

60 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour Meters/second Miles/hour

61 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour Meters/second Miles/hour Seconds/hours

62 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour Meters/second Miles/hour Seconds/hours

63 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour Meters/second Miles/hour Seconds/hours

64 ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME Meters/second Miles/hour Meters/second Miles/hour Seconds/hours Meters/second/second Miles/hour/hour

65 OK - Lets try an acceleration problem

66 Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate?

67 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME

68 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s

69 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s 7 m/s

70 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s 7 m/s

71 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s 7 m/s 8 seconds

72 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s = 4m/s 7 m/s 8 seconds

73 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s = 4m/s 7 m/s 8 seconds 4 / 8 = 1/2 meters/sec/sec

74 OK - Lets try an acceleration problem Brandon is traveling in his bike at 3 m/s. He then speeds up Going down hill and at the bottom of the hill he is traveling 7 m/s. 8 seconds was the time he took to bike down the hill. What is his acceleration rate? ACCELERATION = VELOCITY END START TIME 3 m/s = 4m/s 7 m/s 8 seconds 4 / 8 = 1/2 meters/sec/sec 1/2 or.5 m/s/s

Download ppt "Motion Equations Mr. Kings Science Class. WORK WORK = FORCE X DISTANCE."

Similar presentations

How to Solve Physics Problems.

How to Solve Physics Problems.
What is Motion? Chapter 9 Section 1 and 3.

What is Motion? Chapter 9 Section 1 and 3.
What is Work? In Science, Work is accomplished when a force is moved over a distance. Work. –Lifting books, pushing a box 2 feet, pulling a wagon. Not.

What is Work? In Science, Work is accomplished when a force is moved over a distance. Work. –Lifting books, pushing a box 2 feet, pulling a wagon. Not.
Conservation of Energy

Conservation of Energy
Advanced Physical Science Ms. Pollock

Advanced Physical Science Ms. Pollock
Work and Energy Dr. Robert MacKay Clark College. Introduction What is Energy? What are some of the different forms of energy? Energy = $$$

Work and Energy Dr. Robert MacKay Clark College. Introduction What is Energy? What are some of the different forms of energy? Energy = $$$
Work and Energy Dr. Robert MacKay Clark College.

Work and Energy Dr. Robert MacKay Clark College.
Work and Energy.

Work and Energy.
Following the GLEs and LEAP Format

Following the GLEs and LEAP Format
Sims Middle Aviation Unit Power of Flight Mrs. Locklin and Mr. Blackman.

Sims Middle Aviation Unit Power of Flight Mrs. Locklin and Mr. Blackman.
ForcesPressureMotion Equations and Formulas Misc. 100 200 300 400 500 Final Jeopardy.

ForcesPressureMotion Equations and Formulas Misc Final Jeopardy.
Speed, Velocity and Acceleration

Speed, Velocity and Acceleration
Physics! Motion and Forces Chapter 2 & 3 (Write down wHite writing)

Physics! Motion and Forces Chapter 2 & 3 (Write down wHite writing)
On your paper, graph the following: D (m) T (sec) 00 57 57 10 14 15 21.

On your paper, graph the following: D (m) T (sec)
I can interpret intervals on partially numbered scales and record readings accurately. 10 20 30 40 5060 ? 15 ? 45 ? 25 ? 37 ? 53 ? 64 Each little mark.

I can interpret intervals on partially numbered scales and record readings accurately ? 15 ? 45 ? 25 ? 37 ? 53 ? 64 Each little mark.
Work, Power, & Energy Chapter 12 and 13.

Work, Power, & Energy Chapter 12 and 13.
(i) its uniform retardation, (ii) time taken to come to rest,

(i) its uniform retardation, (ii) time taken to come to rest,
CRCT Review. The weight of a new truck is 1,500 kg What is the weight of the truck in grams? A.) 150 B.) 15,000 C.) 1,500,000 D.) 150,000,000.

CRCT Review. The weight of a new truck is 1,500 kg What is the weight of the truck in grams? A.) 150 B.) 15,000 C.) 1,500,000 D.) 150,000,000.
Sl No Top-up Amount No Of Affiliate Ads Payment Per Day By Affiliate Ad Total Affiliate Ad Income 1.5,000/- Daily 2 ad for 100 days 100/- Affiliate.

Sl No Top-up Amount No Of Affiliate Ads Payment Per Day By Affiliate Ad Total Affiliate Ad Income 1.5,000/- Daily 2 ad for 100 days 100/- Affiliate.
Its Time For... KE and PE Jeopardy! Jeopardy $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100.

Its Time For... KE and PE Jeopardy! Jeopardy $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100.

Similar presentations

Ads by Google