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

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Presentation transcript:

Motion Equations Mr. Kings Science Class

WORK WORK = FORCE X DISTANCE

WORK Feet or cm

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

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

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

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

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

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

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

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 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

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

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

POWER

POWER Power

POWER Power =

POWER Work

POWER Power = Work

POWER Power = Work Time

POWER Power = Work Time Watt

POWER Power = Work Time Watt Joules

POWER Power = Work Time Watt Joules Seconds

POWER Power = Work Time Watt Joules Seconds

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?

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

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

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

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

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

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

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

Velocity

Velocity VELOCITY

Velocity VELOCITY =

Velocity DISTANCE

Velocity VELOCITY = DISTANCE

Velocity VELOCITY = DISTANCE TIME Miles or meters

Velocity VELOCITY = DISTANCE TIME Miles or meters Seconds or hours

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

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

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

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

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

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

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

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

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

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

ACCELERATION

ACCELERATION ACCELERATION

ACCELERATION ACCELERATION =

ACCELERATION VELOCITY ENDING

ACCELERATION ACCELERATION = VELOCITY ENDING

ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING

ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME

ACCELERATION ACCELERATION = VELOCITY ENDING VELOCITY STARTING TIME

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

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

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

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

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

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

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

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?

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

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

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

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

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

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

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

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