NEWTON'S FIRST LAW OF MOTION.

Slides:

Advertisements

Similar presentations

Section 2.1 Outline Forces Change Motion.

Advertisements

Newton’s First Law of Motion—Inertia

6.1 Newton’s First Law pp

Newton’s Laws of motion. Newton’s Three Laws of motion: 1. An object at rest will remain at rest, an object in motion will remain in motion at a constant.

Forces and the Laws of MotionSection 3 Newton’s First Law  Experimentation led Galileo to the idea that objects maintain their state of motion or rest.

Chapter 2 Newton’s First Law of Motion

1) According to Aristotle, the world was composed of 4 elements – earth, water, air, and fire. Each element had a natural place in a hierarchy. Earth,

Physics Lesson 7 Newton's First Law of Motion - Inertia Eleanor Roosevelt High School Chin-Sung Lin.

Topic 3 Galileo: Return to Earth. Aristotle BC

Forces and Motion. Aristotle: Natural Motion: light objects rise, heavy objects fall Violent Motion: motion contrary to an object’s nature, requires an.

Warm Up What causes motion? In other words, what causes things to start, stop and change directions? Sorry, computer issues have made me use.

Newton’s Laws of Motion

Object Thrown Upward. Explaining Motion Aristotle again Natural and Violent Motion Aristotle asserted that natural motion proceeds from the “nature”

Honors Physics Newton’s First and Third Laws of Motion.

Chapter 2 MOTION. - one of the more common intangible concepts in science - is the act or process of changing position TWO IMPORTANT ASPECTS OF MOTION.

Physics 1100 – Spring 2012 Inertia, Forces and Acceleration: The Legacy of Sir Isaac Newton Objects in Motion.

Newton’s 1 st Law Inertia. Force  Any push or pull acting on an object  Most forces require contact between two objects (Contact Forces) Ex. Motor lifts.

Chapter Six: Laws of Motion

Newton’s 1 st Law Inertia. Force Anything capable of changing an object’s state of motion Any push or pull Causes object to speed up, slow down, or change.

Forces and Newton’s Laws

ForcesandNewton’s Laws of Motion ForcesandNewton’s.

ForcesandNewton’s Laws of Motion ForcesandNewton’s.

Newton’s Laws of motion. Forces We have talked about different forces before but haven’t examined them in depth. A force is a push or a pull on an object.

Newton’s Laws of motion. Aristotle - Science by observation. Moving objects Galileo - Science by experiment. Rate of fall Moving objects.

Force. A little History Isaac Newton was an English physicist/astronomer among other things and made a number of significant advances in the study of.

Chap 4:Dynamics: Newton’s Law of Motion

Newton’s First Law. INERTIA An object at rest remains at rest, and an object in motion continues with constant velocity unless it experiences a net external.

Basic Information: Force: A push or pull on an object Forces can cause an object to: Speed up Slow down Change direction Basically, Forces can cause an.

Chapter 4 Newton’s First Law of Motion The Law of Inertia.

Forces & Motion. What is a Force? Force: push or pull Unit: Newton (N)  Kg x m/s 2 Vector: has both magnitude & direction.

& ForcesForces. Causes of Motion Aristotle ( BC) believed that all objects had a “natural place” and that the tendency of an object was to reside.

Laws of Motion Newton’s First Law. Force changes motion A force is a push or pull, or any action that is able to change motion.

Physics In Motion 1-D Kinematics Aristotle’s Notion of Motion  All objects will remain at rest unless an external force is acted upon them. If an.

1 Physics: Chapter 4 Forces & the Laws of Motion Topics:4-1 Changes in Motion 4-2 Newton’s First Law 4-3 Newton’s Second & Third Laws 4-4 Everyday Forces.

Forces and Motion CHAPTER 6. Gravity and Motion Aristotle (round 400 BC) believed that heavier objects fell to the earth faster than lighter objects.

Lecture 2 Objects in Motion Aristotle and Motion Galileo’s Concept of Inertia Mass – a Measure of Inertia Net Force and Equilibrium Speed and Velocity.

Newton’s First Law of Motion—Inertia

Forces Change Motion.

Chapter 8 Forces & Motion.

Newton’s Laws of Motion

Notes on Chapter Newton’s Laws

Projectile motion When you throw a ball forward, you’ll notice that it follows a curved path. This path is an example of projectile motion. Projectile.

The Nature of Forces.

Physics Chapter 1&2 Review

Newton's Laws of Motion & Forces.

Today’s special Test results Banana experiment Notes I

Newtons 1st Law Outcomes:

Physics Mr. Dunn Science.

CH 2&3: Describing Motion Kinematics CH-4: Newton’s Laws Explaining Motion:Dynamics Brief History: Aristotle ( B.C) Galileo Galilei ( )

FORCE AND MOTION.

Newton’s Laws of Motion

WHAT IS A FORCE? TEST REVIEW.

Unit 8 - Forces RCD Physical Science.

Chapter 4 Section 2 Newton’s First Law Objectives

Chapter 6 Newton’s First Law.

Forces and Motion.

Newton’s First Law of Motion

NEWTON'S FIRST LAW OF MOTION.

Forces & Motion.

Newton’s First Law of Motion

Forces and the Laws of Motion

Newton’s First Law.

Forces and the Laws.

Jeopardy Q $100 Q $100 Q $100 Q $100 Q $100 Q $200 Q $200 Q $200

Notes on Chapter Newton’s Laws

Presentation transcript:

NEWTON'S FIRST LAW OF MOTION

ARISTOTLE’S (384-322 B.C.) IMPETUS THEORY OF MOTION Objects fall toward the Earth because it wants to return to its “natural place”. Heavy objects fall faster than lighter ones. Objects fall faster in air than in water due to the resisting force of the medium. Objects move away from their natural force . This “violent motion” is caused by an outside force.

Trajectories of Projectiles According to Aristotle’s Impetus Theory

REASONS FOR THE PERSISTENCE OF ARISTOTLE’S NOTION FOR FORCE The theory was consistent with common sense and observation. No other theories about motion were known during the time. The quantitative method of observation to prove the validity of the theory was not yet developed

GALILEO’S EXPERIMENTAL FINDINGS Both heavy and light objects fell and struck the Earth at the same time. When a ball was rolled down an incline at a fixed angle θ, the ratio of the distance covered to the square of the corresponding time is always the same. When the angle of inclination was changed, the constant also changed. The constant, d/t2, is also the constant for a falling object.

GALILEO’S FINDINGS d = k t2 HEAVY light

NEWTON’S LAWS OF MOTION - Established the relationship between motion and force

FIRST LAW – LAW OF INERTIA Every object tends to remain at rest or move with a constant velocity unless acted upon by a net force. NET FORCE – summation of all forces acting on a given body INERTIA – measure of the mass of an object Examples: a. Passenger tends to move forward when a car suddenly stops. b. A moving car in uniform motion slows down when the brake is applied.

FIRST LAW – LAW OF INERTIA

More Mass = More Inertia

Who has the higher inertia?

The net force acting on an object is the vector sum of all the forces acting on it. Examples: 8 N 6 N 9 N 8 N 3 N 4 N 8 N ? 7 N 7 N 5 N 4 N 4 N 12 N If an object remains at rest, it is incorrect to assume that there are no forces acting on the object. We can only conclude that the net force on the object is zero.

MOTION OF AN OBJECT BASED ON DIFFERENT PERSPECTIVES INSIDE OUTSIDE

Force is either a push or pull

Application of the Law of Inertia

Determine the resultant, or net force, exerted on the stationary elephant by the two clowns in the figure below. What is the tension in the rope attached to the elephant?

This is a 3-4-5 triangle. Therefore, the resultant is 500 N This is a 3-4-5 triangle. Therefore, the resultant is 500 N. Now we have to calculate the angle. Tangent will help us calculate that angle. Now the final answer is The tension in the rope is 500 N, because the net force exerted by the clowns is transmitted to the rope.

CALVIN AND HOBBS’ LOOPHOLES IN NEWTON’S FIRST LAW OF MOTION