Presentation is loading. Please wait.

Presentation is loading. Please wait.

Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both.

Published byBuddy Thompson Modified over 8 years ago

Similar presentations

Presentation on theme: "Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both."— Presentation transcript:

1 Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both mass and velocity are needed to have momentum The units of Momentum are kg•m/s or N•s

2 Historical Connections
Newton’s 2nd Law (F = ma) was originally written in terms of momentum where: The familiar form is derived by writing the Law as: ΣF = Δp Δt Δv Δt ΣF = mvF-mvI = m ΣF = Δp Δt = ma Δv Δt = a since We can conclude:

3 Impulse momentum changes due to a force force x time = impulse
impulse is the change in momentum F Δt = Δ (m v) = m Δv (most of the time) Δv Δt F = m Force (N) time (s)

4 Impulse at work Increase momentum of ball Decrease momentum in a crash
high force (swing hard) long time (follow through on swing) Decrease momentum in a crash long time during crash reduces force for same momentum F Δt = Δ(m v)

5 Bouncing Bouncing causes greater change in momentum
Greater impulse to reverse direction than just to stop it

6 Linear Momentum Velocity in a straight line One dimensional
along x or y axis Two dimensional some components of velocity in both x and y axis

7 The System A system is a collection of objects.
A system is closed when objects do not enter or leave it. (Similar to a class where students cannot add or drop.) Isolated systems cannot have any external forces acting upon them. A system that is both closed and isolated is needed to study momentum changes in collisions

8 Conservation of Momentum
The Law: In the absence of an external force, the momentum of a system remains unchanged. Internal forces do not change total momentum. Momentum is a vector (has direction).

9 Collisions net momentum before collision equals net momentum after collision. Elastic collision no permanent deformation no heat objects separate after collision Inelastic collision objects become distorted heat objects stick together

10 Equations for Collisions
Elastic Collision (bouncy, objects separate at beginning and end) m1v1i + m2v2i = m1v1f + m2v2f Inelastic Collision (sticky) m1v1i + m2v2i = (m1 + m2)vf If an object splits into two pieces…the explosion! (m1 + m2)vi = m1v1f + m2v2f

11 Example Problem 1 A 5.0 kg bowling ball with a velocity of 0.50 m/s rolls into a 6.5 kg bowling ball at rest. After the collision, the second ball travels at 0.43 m/s. What is the velocity of the first ball after the collision?

12 Example Problem 2 A 2500-kg van traveling at 14 m/s runs into the back of a 910-kg car at rest. The vehicles stick together after the collision. What is the final velocity?

13 Momentum is a vector momentum vectors of the objects before the collision equal the momentum vectors of the objects after the collision

Download ppt "Momentum – The Basics Momentum is mass in motion (or inertia in motion) Momentum is abbreviated as the letter p! Momentum is mass x velocity (p = mv) Both."

Similar presentations

Linear Momentum Chapter 7. 7-1 Momentum & Its Relation to Force Linear momentum-product of the mass and its velocity Momenta – plural for momentum A vector.

Linear Momentum Chapter Momentum & Its Relation to Force Linear momentum-product of the mass and its velocity Momenta – plural for momentum A vector.
MOMENTUM & COLLISIONS.

MOMENTUM & COLLISIONS.
Chapter 5 Momentum Ewen et al. 2005) Objective: Apply the law of conservation of momentum to both elastic and inelastic collisions of two objects. Apply.

Chapter 5 Momentum Ewen et al. 2005) Objective: Apply the law of conservation of momentum to both elastic and inelastic collisions of two objects. Apply.
Momentum and Impulse. What is Momentum? Momentum – The product of the mass and velocity of an object. Has magnitude and direction. Momentum = p = mv P.

Momentum and Impulse. What is Momentum? Momentum – The product of the mass and velocity of an object. Has magnitude and direction. Momentum = p = mv P.
Momentum and Impulse.

Momentum and Impulse.
Momentum Momentum inertia and motion Newton’s “quantity of motion” helps us understand collisions and explosions.

Momentum Momentum inertia and motion Newton’s “quantity of motion” helps us understand collisions and explosions.
Conservation of Momentum

Conservation of Momentum
Momentum and Inertia. Momentum Momentum = mass x velocity MV = P Momentum is inertia in motion. A moving object has more p than an object with less m.

Momentum and Inertia. Momentum Momentum = mass x velocity MV = P Momentum is inertia in motion. A moving object has more p than an object with less m.
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.
Momentum Chapter 7. Momentum Momentum – the product of the mass and the velocity of an object (inertia in motion) momentum = mv Momentum is a vector quantity.

Momentum Chapter 7. Momentum Momentum – the product of the mass and the velocity of an object (inertia in motion) momentum = mv Momentum is a vector quantity.
Momentum and Impulse Concepts of Physics Mr. Kuffer.

Momentum and Impulse Concepts of Physics Mr. Kuffer.
Chapter 4 Impulse and Momentum.

Chapter 4 Impulse and Momentum.
Chapter 8 Impulse and Momentum.

Chapter 8 Impulse and Momentum.
Momentum and Impulse Momentum = mass x velocity p = mv units: kg·m/s ***momentum is a vector quantity Conceptually, momentum is a characteristic of motion.

Momentum and Impulse Momentum = mass x velocity p = mv units: kg·m/s ***momentum is a vector quantity Conceptually, momentum is a characteristic of motion.
Chapter 7 Momentum and Collisions. Momentum Newton’s Laws give a description of forces ○ There is a force acting or their isn’t ○ But what about in between.

Chapter 7 Momentum and Collisions. Momentum Newton’s Laws give a description of forces ○ There is a force acting or their isn’t ○ But what about in between.
Momentum Chapter 8. Momentum Chapter 8 Objectives Define momentum. Define impulse and describe how it affects changes in momentum. Explain why an impulse.

Momentum Chapter 8. Momentum Chapter 8 Objectives Define momentum. Define impulse and describe how it affects changes in momentum. Explain why an impulse.
Chapter 7: Linear Momentum CQ: 2 Problems: 1, 7, 22, 41, 45, 47. Momentum & Impulse Conservation of Momentum Types of Collisions 1.

Chapter 7: Linear Momentum CQ: 2 Problems: 1, 7, 22, 41, 45, 47. Momentum & Impulse Conservation of Momentum Types of Collisions 1.
Chapter 6 Momentum and Collisions. Chapter Objectives Define linear momentum Compare the momentum of different objects Describe impulse Conservation of.

Chapter 6 Momentum and Collisions. Chapter Objectives Define linear momentum Compare the momentum of different objects Describe impulse Conservation of.
Momentum and Collisions

Momentum and Collisions
Momentum and Impulse Vectorman productions present: A Nick enterprise: this product is intended for the serious physics student, if you are not a serious.

Momentum and Impulse Vectorman productions present: A Nick enterprise: this product is intended for the serious physics student, if you are not a serious.

Similar presentations

Ads by Google