logging in or signing up Motion ankush85 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: 1056 Category: Education License: All Rights Reserved Like it (3) Dislike it (0) Added: April 29, 2009 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Motion : Motion Speed, acceleration, momentum Frames of Reference : Frames of Reference Object or point from which motion is determined Most common is the earth Motion is a change in position relative to a frame of reference What is motion? : What is motion? If you are standing in one place, and your friend walks by you, are you moving relative to your friend? Is your friend moving relative to you? Is either of you moving relative to the earth? Answer: : Answer: You are moving relative to your friend, and your friend is moving relative to you! You (the Joker) are not moving relative to the earth, but your friend is. You are both moving relative to the sun! Who is moving relative to the computer screen? What is motion? : What is motion? If you and your friend are walking down the hall together at the same speed, in the same direction, are you moving relative to your friend? Is your friend moving relative to you? Are either of you moving relative to the earth? Answer: : Answer: You are NOT moving relative to your friend, and your friend is NOT moving relative to you. You both are moving relative to the earth. Speed : Speed Speed = Distance ÷ Time D_ S T Example: A car travels 300km in 6 hours. What is the speed of the car? Answer: : Answer: Speed = distance ÷ time Speed = 300km ÷ 6 hours Speed = 50km/hr More practice : More practice 1. How far can a plane travel if it flies 800km/hr for 9 hours? 2. How long does it take a ship to go 500 km if it travels at a speed of 50km/hr? Answer : Answer 1. D S T D 800 9 800km ? 9hrs = 7200km hr Answer : Answer 2. D S T 500 50 T 500km ÷ 50km = 10 hrs hr Velocity : Velocity Speed in a given direction. What is the velocity of a boat that travels from St. Peter to Mankato (10 miles) in 15 minutes? Answer : Answer Speed = distance ÷ time Speed = 10 miles ÷ 15 minutes Speed = 0.67 mi/min Velocity = 0.67 mi/min South Change your answer to mi/hr! : Change your answer to mi/hr! 0.67mi/min x 60min/hr = 40 mi/hr Distance-time graphs : Distance-time graphs On your paper, graph the following: D (m) T (sec) 0 0 5 7 10 14 15 21 Slide 16: time (sec) Distance (m) Was your graph a straight line? : Was your graph a straight line? A distance-time graph which is a straight line indicates constant speed. In constant speed, the object does not speed up or slow down. The acceleration is zero. Graph the following on a distance-time graph: : Graph the following on a distance-time graph: D (m) T (s) 0 0 5 1 20 2 45 3 80 4 125 5 Slide 19: time (sec) Distance (m) 0 1 2 3 4 5 Was your graph a curve? : Was your graph a curve? A graph that curves on a distance-time graph shows that the object is accelerating Distance-time graphs : Distance-time graphs Describe the motion of the object as shown in the graph. From 0-8 sec, constant speed: (25 m/sec); From 8-12 sec, no motion; From 12-16 sec, acceleration; From 16-20 sec, constant speed Speed-time graphs : Speed-time graphs Using the distance-time graph from the last frame, draw a speed time graph. First fill in the table below: Average Speed (m/s) Time (sec) ____ 0 to 8 ____ 8 to 12 ____ 12 to 20 25 0 37.5 What does your graph look like? : What does your graph look like? Constant speed will be a horizontal line on a speed time graph. If the speed decreases, the line will slant down. If the speed increases, the line will slant up. What do the following speed-time graphs depict? : What do the following speed-time graphs depict? Acceleration : Acceleration Change in velocity Can be change in speed or direction Acceleration = ?V/ ?T ?V a t Acceleration problem : Acceleration problem A roller coaster’s velocity at the top of a hill is 10m/s. Two seconds later it reaches the bottom of the hill with a velocity of 26m/s. What is the acceleration of the roller coaster? Answer : Answer Acceleration = ?V/ ?T a = 26m/s – 10m/s 2 s a = 16m/s 2s a = 8m/s/s or 8m/s2 More acceleration problems : More acceleration problems 1. A car accelerates at a rate of 20mi/hr/s. How long does it take to reach a speed of 80 mi/hr? 2. A car travels at 60 miles per hour around a curve. Is the car accelerating? 3. A car travels in a straight line at 60mi/hr. Is the car accelerating? Answers: : Answers: 1. ?V 80mi/hr a t 20mi/hr/s t 4sec = t 2. yes! Because it’s changing direction! 3. no! It’s not changing speed or direction! Deceleration : Deceleration Negative acceleration Example: A car slows from 60mi/hr to 20mi/hr in 4 seconds. What is its acceleration? Answer: : Answer: Acceleration = ?V/ ?T Acceleration = Vf – Vi t a = 20mi/hr – 60mi/hr 4 s a = -40mi/hr 4s a = -10mi/hr/s Review: Distance-time graph of acceleration : Review: Distance-time graph of acceleration Distance-time graph of deceleration : Distance-time graph of deceleration Review:Speed-time graph of acceleration : Review:Speed-time graph of acceleration Review: Speed-time graph of deceleration : Review: Speed-time graph of deceleration Review: Distance-time graph of constant speed : Review: Distance-time graph of constant speed Momentum : Momentum Momentum = Mass x Velocity Which has more momentum: a 300lb football player moving at 5m/s or a 200lb quarterback moving at 10m/s? Answer: : Answer: Momentum of the 300lb player is 300lbs x 5m/s = 1500lb-m/s Momentum of the quarterback is 200lbs x 10m/s = 2000lb-m/s The quarterback has a greater momentum! Slide 41: inelastic collisions Inelastic collision : Inelastic collision Slide 43: elastic collisions Elastic collision : Elastic collision Two dimensional collision : Two dimensional collision Momentum problems : Momentum problems 2 cars are heading east, car A is traveling 30mi/hr, car B is traveling 60mi/hr. Each car weighs 2000lbs. What is the momentum of car A? What is the momentum of car B? If car B crashes into car A, what is the total momentum? Answers: : Answers: P=mv Car A’s momentum = 30mi/hr x 2000lbs PA = 60,000 mi-lbs/hr east Car B’s momentum = 60mi/hr x 2000lbs PB = 120,000 mi-lbs/hr east Total momentum = PA + PB = 60,000 + 120,000 = 180,000 mi-lbs/hr east Another momentum problem! : Another momentum problem! Car X is traveling 30mi/hr east, car Y is traveling 60mi/hr west. Each car weighs 2000lbs. What is the momentum of car X? What is the momentum of car Y? If car X crashes into car Y, what is the total momentum? Answers: : Answers: P=mv Car X’s momentum = 30mi/hr x 2000lbs PA = 60,000 mi-lbs/hr east Car Y’s momentum = 60mi/hr x 2000lbs PY = 120,000 mi-lbs/hr west Total momentum = PY - PX = 120,000 - 60,000 = 60,000 mi-lbs/hr west Which has more momentum? : Which has more momentum? You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Motion ankush85 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: 1056 Category: Education License: All Rights Reserved Like it (3) Dislike it (0) Added: April 29, 2009 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Motion : Motion Speed, acceleration, momentum Frames of Reference : Frames of Reference Object or point from which motion is determined Most common is the earth Motion is a change in position relative to a frame of reference What is motion? : What is motion? If you are standing in one place, and your friend walks by you, are you moving relative to your friend? Is your friend moving relative to you? Is either of you moving relative to the earth? Answer: : Answer: You are moving relative to your friend, and your friend is moving relative to you! You (the Joker) are not moving relative to the earth, but your friend is. You are both moving relative to the sun! Who is moving relative to the computer screen? What is motion? : What is motion? If you and your friend are walking down the hall together at the same speed, in the same direction, are you moving relative to your friend? Is your friend moving relative to you? Are either of you moving relative to the earth? Answer: : Answer: You are NOT moving relative to your friend, and your friend is NOT moving relative to you. You both are moving relative to the earth. Speed : Speed Speed = Distance ÷ Time D_ S T Example: A car travels 300km in 6 hours. What is the speed of the car? Answer: : Answer: Speed = distance ÷ time Speed = 300km ÷ 6 hours Speed = 50km/hr More practice : More practice 1. How far can a plane travel if it flies 800km/hr for 9 hours? 2. How long does it take a ship to go 500 km if it travels at a speed of 50km/hr? Answer : Answer 1. D S T D 800 9 800km ? 9hrs = 7200km hr Answer : Answer 2. D S T 500 50 T 500km ÷ 50km = 10 hrs hr Velocity : Velocity Speed in a given direction. What is the velocity of a boat that travels from St. Peter to Mankato (10 miles) in 15 minutes? Answer : Answer Speed = distance ÷ time Speed = 10 miles ÷ 15 minutes Speed = 0.67 mi/min Velocity = 0.67 mi/min South Change your answer to mi/hr! : Change your answer to mi/hr! 0.67mi/min x 60min/hr = 40 mi/hr Distance-time graphs : Distance-time graphs On your paper, graph the following: D (m) T (sec) 0 0 5 7 10 14 15 21 Slide 16: time (sec) Distance (m) Was your graph a straight line? : Was your graph a straight line? A distance-time graph which is a straight line indicates constant speed. In constant speed, the object does not speed up or slow down. The acceleration is zero. Graph the following on a distance-time graph: : Graph the following on a distance-time graph: D (m) T (s) 0 0 5 1 20 2 45 3 80 4 125 5 Slide 19: time (sec) Distance (m) 0 1 2 3 4 5 Was your graph a curve? : Was your graph a curve? A graph that curves on a distance-time graph shows that the object is accelerating Distance-time graphs : Distance-time graphs Describe the motion of the object as shown in the graph. From 0-8 sec, constant speed: (25 m/sec); From 8-12 sec, no motion; From 12-16 sec, acceleration; From 16-20 sec, constant speed Speed-time graphs : Speed-time graphs Using the distance-time graph from the last frame, draw a speed time graph. First fill in the table below: Average Speed (m/s) Time (sec) ____ 0 to 8 ____ 8 to 12 ____ 12 to 20 25 0 37.5 What does your graph look like? : What does your graph look like? Constant speed will be a horizontal line on a speed time graph. If the speed decreases, the line will slant down. If the speed increases, the line will slant up. What do the following speed-time graphs depict? : What do the following speed-time graphs depict? Acceleration : Acceleration Change in velocity Can be change in speed or direction Acceleration = ?V/ ?T ?V a t Acceleration problem : Acceleration problem A roller coaster’s velocity at the top of a hill is 10m/s. Two seconds later it reaches the bottom of the hill with a velocity of 26m/s. What is the acceleration of the roller coaster? Answer : Answer Acceleration = ?V/ ?T a = 26m/s – 10m/s 2 s a = 16m/s 2s a = 8m/s/s or 8m/s2 More acceleration problems : More acceleration problems 1. A car accelerates at a rate of 20mi/hr/s. How long does it take to reach a speed of 80 mi/hr? 2. A car travels at 60 miles per hour around a curve. Is the car accelerating? 3. A car travels in a straight line at 60mi/hr. Is the car accelerating? Answers: : Answers: 1. ?V 80mi/hr a t 20mi/hr/s t 4sec = t 2. yes! Because it’s changing direction! 3. no! It’s not changing speed or direction! Deceleration : Deceleration Negative acceleration Example: A car slows from 60mi/hr to 20mi/hr in 4 seconds. What is its acceleration? Answer: : Answer: Acceleration = ?V/ ?T Acceleration = Vf – Vi t a = 20mi/hr – 60mi/hr 4 s a = -40mi/hr 4s a = -10mi/hr/s Review: Distance-time graph of acceleration : Review: Distance-time graph of acceleration Distance-time graph of deceleration : Distance-time graph of deceleration Review:Speed-time graph of acceleration : Review:Speed-time graph of acceleration Review: Speed-time graph of deceleration : Review: Speed-time graph of deceleration Review: Distance-time graph of constant speed : Review: Distance-time graph of constant speed Momentum : Momentum Momentum = Mass x Velocity Which has more momentum: a 300lb football player moving at 5m/s or a 200lb quarterback moving at 10m/s? Answer: : Answer: Momentum of the 300lb player is 300lbs x 5m/s = 1500lb-m/s Momentum of the quarterback is 200lbs x 10m/s = 2000lb-m/s The quarterback has a greater momentum! Slide 41: inelastic collisions Inelastic collision : Inelastic collision Slide 43: elastic collisions Elastic collision : Elastic collision Two dimensional collision : Two dimensional collision Momentum problems : Momentum problems 2 cars are heading east, car A is traveling 30mi/hr, car B is traveling 60mi/hr. Each car weighs 2000lbs. What is the momentum of car A? What is the momentum of car B? If car B crashes into car A, what is the total momentum? Answers: : Answers: P=mv Car A’s momentum = 30mi/hr x 2000lbs PA = 60,000 mi-lbs/hr east Car B’s momentum = 60mi/hr x 2000lbs PB = 120,000 mi-lbs/hr east Total momentum = PA + PB = 60,000 + 120,000 = 180,000 mi-lbs/hr east Another momentum problem! : Another momentum problem! Car X is traveling 30mi/hr east, car Y is traveling 60mi/hr west. Each car weighs 2000lbs. What is the momentum of car X? What is the momentum of car Y? If car X crashes into car Y, what is the total momentum? Answers: : Answers: P=mv Car X’s momentum = 30mi/hr x 2000lbs PA = 60,000 mi-lbs/hr east Car Y’s momentum = 60mi/hr x 2000lbs PY = 120,000 mi-lbs/hr west Total momentum = PY - PX = 120,000 - 60,000 = 60,000 mi-lbs/hr west Which has more momentum? : Which has more momentum?