Presentation is loading. Please wait.

Presentation is loading. Please wait.

2D Collisions and Center of mass. Collisions or Explosions in Two Dimensions y x before after P total,x and P total,y independently conserved P total,x,before.

Published byEmery Dixon Modified over 9 years ago

Similar presentations

Presentation on theme: "2D Collisions and Center of mass. Collisions or Explosions in Two Dimensions y x before after P total,x and P total,y independently conserved P total,x,before."— Presentation transcript:

1 2D Collisions and Center of mass

2 Collisions or Explosions in Two Dimensions y x before after P total,x and P total,y independently conserved P total,x,before = P total,x,after P total,y,before = P total,y,after 37

3 before after ppfppf v o = 3m/s F v v cm Example: shooting pool 43 during Mass of both balls is 2kg 30 0 Find final velocity and direction of white ball At rest v v f =2m/s

4 Example: shooting pool (cont.)

5 Center of Mass Center of Mass = Balance point 46 Some objects can’t be balanced on a single point

6 Example: center of mass m = 0.140 kg 1m 0.1m M = 0.515

7 Velocity of Center of Mass 46 The speed of the balance point

8 Elastic Collisions 1. Find V cm. 2. Subtract V cm from both initial velocities. 3. Change sign of both velocities. 4. Add V cm to both velocities.

9 Example: collision “before” “after” M 1 =2kg M 2 =1kg M 1 =2kg V o = 3m/s V o = 0m/s Two blocks collide and bounce apart, what is their final velocity?

10 Example: collision “before” “after” M 1 =2kg M 2 =1kg M 1 =2kg V o = 3m/s Two blocks collide and bounce apart, what is their final velocity?

11 Summary Collisions and Explosions Draw “before”, “after” Define system so that F ext = 0 Set up axes Compute P total “before” Compute P total “after” Set them equal to each other Center of Mass (Balance Point) 50

Download ppt "2D Collisions and Center of mass. Collisions or Explosions in Two Dimensions y x before after P total,x and P total,y independently conserved P total,x,before."

Similar presentations

Linear Momentum For an individual mass we define the linear momentum to be: From the 2 nd law we have: This is actually how Newton originally formulated.

Linear Momentum For an individual mass we define the linear momentum to be: From the 2 nd law we have: This is actually how Newton originally formulated.
Conservation of Momentum The sum of the momentums of two bodies before they collide is equal to the sum of their momentums after they collide if there.

Conservation of Momentum The sum of the momentums of two bodies before they collide is equal to the sum of their momentums after they collide if there.
Conservation of Momentum

Conservation of Momentum
Momentum and Energy in Collisions. A 2kg car moving at 10m/s strikes a 2kg car at rest. They stick together and move to the right at ___________m/s.

Momentum and Energy in Collisions. A 2kg car moving at 10m/s strikes a 2kg car at rest. They stick together and move to the right at ___________m/s.
Physics 101: Lecture 12, Pg 1 Physics 101: Lecture 12 Collisions and Explosions l Today’s lecture will cover Textbook Sections 7.5 - 7.8 Exam II.

Physics 101: Lecture 12, Pg 1 Physics 101: Lecture 12 Collisions and Explosions l Today’s lecture will cover Textbook Sections Exam II.
Momentum Impulse, Linear Momentum, Collisions Linear Momentum Product of mass and linear velocity Symbol is p; units are kgm/s p = mv Vector whose direction.

Momentum Impulse, Linear Momentum, Collisions Linear Momentum Product of mass and linear velocity Symbol is p; units are kgm/s p = mv Vector whose direction.
UB, Phy101: Chapter 7, Pg 1 Physics 101: Chapter 7 Impulse and Momentum l Today’s lecture will cover Textbook Sections 7.1 - 7.5.

UB, Phy101: Chapter 7, Pg 1 Physics 101: Chapter 7 Impulse and Momentum l Today’s lecture will cover Textbook Sections
Elastic Collisions. Conservation  Elastic collisions conserve both momentum and kinetic energy.  Two equations govern all elastic collisions. m1m1 m2m2.

Elastic Collisions. Conservation  Elastic collisions conserve both momentum and kinetic energy.  Two equations govern all elastic collisions. m1m1 m2m2.
Physics 101: Lecture 12, Pg 1 Collisions “before” “after” m1m1 m2m2 m1m1 m2m2 Explosions “before” “after” M m1m1 m2m2 Draw “before”, “after” Define system.

Physics 101: Lecture 12, Pg 1 Collisions “before” “after” m1m1 m2m2 m1m1 m2m2 Explosions “before” “after” M m1m1 m2m2 Draw “before”, “after” Define system.
ENGR 215 ~ Dynamics Sections 15.1-15.3. Impulse and Linear Momentum In this section we will integrate the equation of motion with respect to time and.

ENGR 215 ~ Dynamics Sections Impulse and Linear Momentum In this section we will integrate the equation of motion with respect to time and.
Elastic Collisions. Momentum and Kinetic Energy  An object in motion has a momentum based on its mass and velocity. p = mvp = mv  The object also has.

Elastic Collisions. Momentum and Kinetic Energy  An object in motion has a momentum based on its mass and velocity. p = mvp = mv  The object also has.
Ch 9 Linear Momentum and Collisions 9.1 Linear Momentum and Its Conservation Linear – traveling along a path p = mv single particle dp/dt = d(mv)/dt =

Ch 9 Linear Momentum and Collisions 9.1 Linear Momentum and Its Conservation Linear – traveling along a path p = mv single particle dp/dt = d(mv)/dt =
Momentum and Impulse.

Momentum and Impulse.
Physical Modeling – Fall 20061 MOMENTUM For a particle, momentum is: p = mv and.

Physical Modeling – Fall MOMENTUM For a particle, momentum is: p = mv and.
Principles of Physics. - property of an object related to its mass and velocity. - “mass in motion” or “inertia in motion” p = momentum (vector) p = mvm.

Principles of Physics. - property of an object related to its mass and velocity. - “mass in motion” or “inertia in motion” p = momentum (vector) p = mvm.
Conservation of Momentum. Conserved Total momentum of a system before and after an interaction remains constant Momentum before = Momentum After Two balls.

Conservation of Momentum. Conserved Total momentum of a system before and after an interaction remains constant Momentum before = Momentum After Two balls.
Momentum Chapter 6. Momentum ► Related to inertia, not the same. ► Symbol is p ► p=mv ► Units of kgm/s ► What is the momentum of a 75kg rock rolling at.

Momentum Chapter 6. Momentum ► Related to inertia, not the same. ► Symbol is p ► p=mv ► Units of kgm/s ► What is the momentum of a 75kg rock rolling at.
Science Starter A 2 kg object moving east at 12 m/s collides with a stationary 6 kg object. After the collision, the 2 kg object bounces west at 6 m/s.

Science Starter A 2 kg object moving east at 12 m/s collides with a stationary 6 kg object. After the collision, the 2 kg object bounces west at 6 m/s.
Collisions basically include every interaction § 8.3–8.4.

Collisions basically include every interaction § 8.3–8.4.
About Midterm Exam 2 When and where –Thurs March 24 th 5:45-7:00 pm (after the break) –Rooms: Same as Exam I, See course webpage. –Your TA will give a.

About Midterm Exam 2 When and where –Thurs March 24 th 5:45-7:00 pm (after the break) –Rooms: Same as Exam I, See course webpage. –Your TA will give a.

Similar presentations

Ads by Google