Momentum Objectives (b) define linear momentum as the product of mass and velocity and appreciate the vector nature of momentum;

Slides:

Advertisements

Similar presentations

CHAPTER 8 Momentum & Impulse.  Momentum is a product of mass and velocity  Momentum is a vector (magnitude and direction)  p = m v  Measured in kg.

Advertisements

CHAPTER 9 NOTES KONICHEK. I. Impulse and change in momentum A. Newton wrote his 3 laws in terms of momentum- quantity of motion B. Momentum is the product.

Collisions © D Hoult Elastic Collisions © D Hoult 2010.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Momentum and Collisions Chapter 6 Table of Contents Section 1 Momentum.

Linear Momentum and Collisions المحاضرة العاشرة. Linear Momentum and Collisions Chapter 9.

Chapter 6 Preview Objectives Linear Momentum

NEWTON'S SECOND LAW. OBJECTIVES  Students will be able to explain Newton's second law of motion.  They will be able to derive the formula for calculating.

Linear Dynamics Momentum and motion of systems. Collisions. o Linear Dynamics  Nature of Momentum (& Energy), origins  Linear Momentum Conservation 

REVISION MOMENTUM. the product of an object's mass and its velocity a vector quantity with the same direction as the velocity of the object. MOMENTUM.

Momentum and Collisions

Pre-AP Physics: Momentum and Impulse. Agenda 4/1 – 4/2 1. Introduction to Momentum Mini-Lab 2. Momentum Notes 3. Momentum Practice HW: Finish Momentum.

Momentum “The Big Mo” “Momentum’s on our side!” “Feel the Momentum shift!” (insert any other sports cliché here)

Linear momentum. The concept of momentum The momentum of a mass m and velocity v is defined to be p = mv Momentum is a vector quantity whose direction.

The product of mass and velocity of a body is called momentum. Force and Laws of Motion Momentum Mathematically, Momentum = mass × velocity P = mv It is.

Group: Max, Shulan, and Miuki. When a sport coach tells his team that they have a lot of “momentum”, he means that the team is difficult to stop. In physics,

Momentum Ms. Li Momentum is a commonly used term in sports. A team that has the momentum is on the move and is going to take some effort to stop. A team.

Linear Momentum. Linear Momentum (p) Product of mass and velocity Equation p = mv Vector quantity with direction the same as v Unit kg-m/s.

Chapter 7: Linear Momentum Along with conservation of energy, we will now include other conserved quantities of linear and angular momentum. Linear momentum.

Concept Summary. Momentum  Momentum is what Newton called the “quantity of motion” of an object.

Mr. Sherred Physics YourName.  An object’s momentum depends on two things 1. Its mass 2. Its velocity The symbol for momentum is a lowercase p Momentum.

Momentum and Impulse. March 24, 2009 Momentum and Momentum Conservation  Momentum  Impulse  Conservation of Momentum  Collision in 1-D  Collision.

Momentum p = m v Momentum = mass * velocity momentum is directly proportional to an object's mass momentum is directly proportional to the object's velocity.

Unit 2 Momentum and Impulse An Introduction to Momentum.

Chapter 7 Linear Momentum. Objectives: Students will be able to: Explain that a conserved quantity is a quantity that remains numerically constant. Define.

Momentum Momentum is _____________________ Momentum = P = Units = Momentum is a vector quantity – it has _________ and _________ SO: the bigger the object,

Chapter 8: Momentum P=mv. Momentum is conserved for all collisions as long as external forces don’t interfere.

Momentum and Impulse Reactions to Collisions. Momentum Momentum: The vector quantity defined by the product of mass and velocity for a MOVING object.

© Houghton Mifflin Harcourt Publishing Company Preview Objectives Linear Momentum Chapter 6 Section 1 Momentum and Impulse.

Linear momentum You should be able to: state the definition of momentum; state the definition of average net force in terms of momentum; state the definition.

By: Aneesah E.  Aim- Explain the relationship between mass and inertia.  Donow - Define Acceleration.  Acceleration- Is the change in velocity divided.

Chapter 6 - Forces In Motion Section 3 – Momentum pp

Momentum A quantity defined as the product of the mass and velocity of an object.

Key Areas covered Force-time graphs during contact of colliding objects. Impulse found from the area under a force-time graph. Equivalence of change in.

1. "the total momentum of the two balls is the same as it was before." 2. "each ball has the same momentum after the collision as it did before." 3. "each.

Momentum The property of moving object has that makes it difficult to stop. (technically, product of mass and velocity) Formula: p = mv.

Momentum and Collisions

A –Level Physics: Further Mechanics- Inelastic and Elastic Collisions

Momentum How do we measure the momentum of an object?

Collisions © D Hoult 2010.

Collisions don’t just occur in one dimension, as we have been studying; they also occur in two or three dimensions.

Momentum And Impulse.

Momentum and Force.

Chapter 6 Objectives Compare the momentum of different moving objects.

Linear Momentum AP Physics.

A LEVEL PHYSICS Year 1 Momentum A* A B C

Integrated Science Glencoe Chapter 4

Action and Reaction.

Elastic Collisions SPH4U.

Find the velocity of a particle with the given position function

Why can’t it stop easily ??

Conservation of momentum

READING QUIZ For an inelastic collision between two objects,

MOMENTUM (p) is defined as the product of the mass and velocity -is based on Newton’s 2nd Law F = m a F = m Δv t F t = m Δv IMPULSE MOMENTUM.

Derivation of the Exchange of Velocities

MOMENTUM & IMPULSE.

Chapter B2 B2.2 – Change in Momentum.

Momentum Contents: New concept Example Whiteboards.

Dynamics and Kinematics

Momentum and Impulse SPH4U.

Momentum and Collisions

Momentum and impulse.

Momentum, Mass, and Velocity

Force and Motion (H) Newton's second law. Inertia. Weight.

Linear Momentum vector quantity that describes the tendency of an object to continue moving at constant velocity product of mass and velocity denoted by.

Momentum and Impulse Lesson 1.

Purpose Use the principle of conservation of energy to verify that gravitational potential energy can be converted into rotational kinetic energy and linear.

Momentum and Impulse.

Momentum and Its Conservation

Presentation transcript:

Momentum Objectives (b) define linear momentum as the product of mass and velocity and appreciate the vector nature of momentum;

Outcomes You MUST ALL Be able to define linear momentum as the product of mass and velocity AND understand that momentum is a vector. Most of you SHOULD Be able to: state the equation for momentum, rearrange it and state its units; Explain why momentum is a vector; apply p=mv and change in momentum = mv-mu to a number of situations correctly. SOME of you COULD Understand that the change in momentum = Force x time.

Momentum and collisions

Momentum Momentum is how hard it is to stop an object. It is affected by mass and velocity and is therefore a vector quantity. Momentum(kgms -1 ) = mass(kg) x velocity(ms -1 ) p = mv

Change in Momentum If the velocity (or mass) of an object changes then so will the momentum. So we can write: Change in momentum = mv – mu It can be shown that: Force x time = change in momentum

Outcomes You MUST ALL Be able to define linear momentum as the product of mass and velocity AND understand that momentum is a vector. Most of you SHOULD Be able to: state the equation for momentum, rearrange it and state its units; Explain why momentum is a vector; apply p=mv and change in momentum = mv-mu to a number of situations correctly. SOME of you COULD Understand that the change in momentum = Force x time.