Physics: Kinematics Andy Onorato Grade:12 Click here to go to the next slide.

Slides:

Advertisements

Similar presentations

Advertisements

FORCE A force is any influence that can change the velocity of a body. Forces can act either through the physical contact of two objects (contact forces:

The Nature of Force Chapter 10 section 1.

This is... Forces Here are the categories... 3 Laws.

WHAT IS FRICTION?. WHAT IS FRICTION? WHAT IS FRICTION? Friction is the force resisting the relative motion of solid surfaces, fluid layers, and material.

Preview Section 1 Newton's Second Section 5 Extra questions.

Chapter 4 The Laws of Motion.

Newton’s Second Law The net force on a body is equal to the product of the body’s mass and its acceleration.

Applying Newton’s Laws

Force and motion Forces acting together

Fall Final Review WKS: WORD PROBLEMS. Average Speed 1. A rock is dropped from the top of a tall cliff 9 meters above the ground. The ball falls freely.

Constant Force Motion and the Free Body Diagram Teacher Excellence Workshop June 19, 2009.

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Equilibrium Using Newton’s second law Mass, weight, and apparent weight.

. They all fall at the same rate!  Air Resistance o Force in the opposite direction of the motion of an object through air o Also called drag o Can.

NEWTON'S LAWS OF MOTION There are three of them.

Applications of Newton’s Laws

FORCES. A force is an influence on a system or object which, acting alone, will cause the motion of the system or object to change. If a system or object.

Forces Chapter 6 Pages: Force A force is a push or pull upon an object resulting from the object's interaction with another object. Contact Forces.

Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.

Newton’s Laws - continued

Newton’s Laws of Motion

Gravity and Freefall. Gravity pulls on all objects on the Earth, trying to pull them to the center of the Earth. We measure the amount of pull on your.

Problems Chapter 4,5.

Do Now: What are Newton’s 3 Laws of Motion?. Do Now: What are Newton’s 3 Laws of Motion?

AIM: What are Newton’s three laws, and how do they describe how an object behaves? Do Now: - Draw a Free Body Diagram for the block below if 1. it is at.

Problems Ch(1-3).

Units to read: 14, 15, 16, 17,18. Mass and Inertia Mass is described by the amount of matter an object contains. This is different from weight – weight.

:acceleration and force Physics :acceleration and force NB p 47 NOTES.

Forces Newton’s Second Law.

Aim: How can we solve problems dealing with Atwood Machines using Newton’s Laws? HW #6 Do Now: An object is of mass M is hanging from a rope as shown.

The Nature of Force Chapter 3 section 4 What is a force Force is a push or pull. Forces are either balanced or unbalanced.

– coefficient of kinetic friction

CHAPTER 4 FORCES IN 1-D FORCE Force is anything which causes a body to start moving when it is at rest, or stop when it is moving, or deflect once it.

Chapter 4 The Laws of Motion Phy 2053 Conceptual Questions Phy 2053 Conceptual Questions.

Physics Motion and Force: Dynamics 4.1 Force 4.2 Newton’s First Law of Motion 4.3 Mass 4.4 Newton’s Second Law of Motion 4.5 Newton’s Third Law.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 2 pt 4 pt 6 pt 8 pt 10 pt 1pt Vocabulary Words Describing Motion.

Physics. Session Work, Power and Energy - 3 Session Objectives.

Review A force is any push or ____________.

1 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt Labels.

Introduction to Applied Physics Milbank High School.

Physics In Baseball By: Justin Haines. Motion “In physics, motion is a change in position of an object with respect to time.” Running the bases Moving.

Circular Motion. Rotating Turning about an internal axis Revolving Turning about an external axis.

Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.

Newton’s First & Second Law AP Physics C. Unit is the NEWTON(N) Is by definition a push or a pull Can exist during physical contact(Tension, Friction,

Forces and Motion Forces in One Dimension. Force and Motion  Force  Force is a push or pull exerted on an object  Cause objects to speed up, slow down,

CP Physics Chapter 4 Newton’s Laws Force Force (F) is a push or a pull Measured in Newtons (N) for SI, pounds (lb) in US. (4.45 N = 1 lb) It has magnitude.

Kinematics in 1 dimension with constant acceleration

A force is It is the cause of an acceleration, or the change in an object's velocity. A force can cause an object to: -- Forces -- Changes in Motion tart.

FORCES Chapter 5. Mechanics The study of Motion Isaac Newton, 1600’s The father of mechanics.

Friction and Gravity. What is friction? The force that two surfaces exert on each other when they rub against each other.

Friction and Gravity Energy, Machines, and Motion.

Physics Fall Practice Final Exam 25 Questions Time = Less than 30 minutes.

PHY 151: Lecture Forces of Friction 5.9 Newton’s Second Law.

Do Now: A boy pushes a 5Kg box across a floor with a force of 40N. If the force of friction is 10N find the acceleration of the box. (Draw a force diagram)

Chapter 4 Review. Question What is the SI unit of force?

Inertia or Weight? Newton’s 1 st & 2 nd Laws Name that Force Newton’s 3 rd Law

Lecture 5Purdue University, Physics 2201 Lecture 05 Forces and Motion beyond 1 D Textbook Sections 3.7, 4.1 PHYSICS 220.

 Gravity is 9.8 or ~10 m/s 2  If dropped from rest: y = -½ gt 2.

The Nature of Force and Motion 1.Force – A push or a pull – How strong it is and in what direction? 2.Net Force – The sum of all forces acting on an object.

Midterm 1 Review Chapters 1-5

How to use Newton’s Second Law

Q5.1 A car engine is suspended from a chain linked at O to two other chains. Which of the following forces should be included in the free-body diagram.

Chapter 4 Test Review.

Ch. 5 slides Forces.ppt.

CHAPTER 4 FORCES IN 1-D.

Object at rest stays at rest,

Applying Newton’s Laws

Clicker Question Review Objects in Motion

Presentation transcript:

Physics: Kinematics Andy Onorato Grade:12 Click here to go to the next slide

Main Menu Click here to try a pulley problem Kinematics equation 1Kinematics equation 2 Kinematics equation 3 Force of GravityNormal ForceForce Equation Tension ForceFrictional Force

Kinematics Equation 1 The first kinematics equation is v = v 0 + at. This equations states that the speed of an object can be determined by first multiplying the acceleration by how long the object is traveling and then adding that speed to the initial speed of the object. Example: A car that starts at rest accelerates uniformly for 5 sec at 3m/s 2, how fast is the car going after that 5 sec? v = v 0 + at v = 0 + (3)(5) v = 15m/s Click here to go to Return to the Main Menu

Kinematics Equation 2 Click here to go to Return to the Main Menu The second kinematics equation is v 2 = v ax. This equations states that the speed squared of an object can be determined by first multiplying the acceleration and the distance traveled of an object by 2, and then adding that speed to the initial speed squared of the object. Example: A boy is standing on the top of the bleachers with a super ball. He throws the ball straight at the ground at an initial speed of 5m/s. The bleachers are 30m tall and the acceleration due to gravity is 10m/s 2. At what speed does the ball strike the ground? v 2 = v ax v 2 = (5) 2 + 2(10)(30) v 2 = 625m/s v = 25m/s

Kinematics Equation 3 Click here to go to Return to the Main Menu The third kinematics equation is x = v 0 t + ½at 2. This equations states that the distance an object travels can be determined by first multiplying the initial speed by how long the object travels at that speed. Then add that amount to ½ the acceleration multiplied by the time squared. Example: A girl is jogging at a constant speed of 2m/s. For 6 sec she accelerates at a rate of 1 m/s 2. How far does she travel during her time of acceleration. x = v 0 t + ½at 2 x = (2)(6) + ½(1)(6) 2 x = x = 30m

Click here to go to Return to the Main Menu Force Equation The equation we can use to find the force is Force equals the mass multiplied by the acceleration. So if a 400g object is accelerating at a constant of 5m/s 2, how much force does the object have? F = ma

Click here to go to Return to the Main Menu Force of Gravity The force of gravity is the amount of force the object feels from gravity. It can be found by multiplying the mass times the acceleration due to gravity (9.8m/s 2 ) F g = mg

Click here to go to Return to the Main Menu Normal Force the normal force (F N ) is the component, that keeps an object from pushing through another surface. For example, the surface of a floor or wall, preventing the object from penetrating the surface.

Tension Force Click here to go to Return to the Main Menu The tension is the pulling force exerted by a string, cable, chain, etc on another object.

Click here to go to Return to the Main Menu Frictional Force Friction is the force resisting the relative motion of solid surfaces, fluid layers, and material elements sliding against each other.

How fast does a ball hit the ground when dropped from a 20m building? 392 m/s m/s 10 m/s 2 50 m/s 2

Congratulations!! Click here to go to the next problem

Hang in there. You can do it! Click here to go to return to the problem

Complete the problem and then click here to check your answer Physics Problem Note that the tension force on each of the blocks is of the same magnitude. If the large block (5g) feels a force of 10 N, and the small block weighs 3 g, What force is exerted on the smaller block?

Answer Click here if you answered correctly Large Block F = ma 10 = (5)a a = 2 m/s 2 Small Block F = ma F = (3)(2) F = 6 N

Thank you for Participating Click here to return back to the first side