Isaac Newton developed three laws that help us explain the relationship between forces acting on a body and the motion of a body.

Slides:

Advertisements

Similar presentations

Force and motion Unit 3.

Advertisements

Forces are the basis for all movement.

The Laws of Motion Chapter The First Two Laws of Motion Section 4-1 The British Scientist Isaac Newton published a set of three rules in.

Newton’s Law of Motion {Force and Motion. Newton’s Three Laws First law (Law of Inertia) –An object at rest stays at rest and an object in motion will.

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.

SEHS 4.3..The Fundamentals of Biomechanics III

< BackNext >PreviewMain Forces and Motion Preview Section 1 Gravity and MotionGravity and Motion Section 2 Newton’s Laws of MotionNewton’s Laws of Motion.

Newton and Gravity. State of Physics By now the world knew: Bodies of different weights fall at the same speed Bodies in motion did not necessarily come.

2A/2B BIOMECHANICS 2 nd ed. 1 ©PE STUDIES REVISION SEMINARS.

FORCE. Force: a vector with the units - Newton (N). "An object at rest tends to stay at rest and an object in motion tends to stay in motion; A force.

Year 11 Physical Education AS 1.2 Credits: 5 Miss Sandri

Motion And Forces SC & SC May the force be with you!

Describe Speed A way to describe motion –Average speed - Rate of motion calculated by dividing the distance traveled by the amount of time it takes to.

BIOMECHANICAL PRINCIPLES

The Nature of a Force A push or pull on an object (starting text page 312)

Principles of Biomechanics Action Reaction. Lesson Aim: To critically examine the biomechanical principles which are important in Physical activity &

Biomechanics The study of cause and effect

Biomechanics 2 – Newton’s Laws of Motion 2.2 A BALL OF A TIME!

Forces and the Laws of Motion

Force Newton’s Laws 1 First Law - Inertia Second Law – Force and Acceleration Third Law – Action and Reaction Introduction.

Projectile motion.

Biomechanics.  The study of forces and their effects on the human body.

Forces & Motion. Describe Acceleration A change in velocity – which may be: –A change in speed Starting Stopping Speeding up Slowing down –A change in.

Newton’s Laws of Motion. Newton’s First Law  The Law of Inertia  Inertia- the tendency of an object to resist a change in motion.  An object at rest.

Types of Motion Topic 4 – Movement Analysis

Newton’s Laws of Motion. Sir Isaac Newton Born Jan. 4, 1643 in England. As a young student, Newton didn’t do well in school. He worked hard and continued.

College and Engineering Physics Newton’s Laws 1 TOC First Law - Inertia Second Law – Force and Acceleration Third Law – Action and Reaction Introduction.

Motion a change in position in a certain amount of time.

Newton’s Laws of Motion Sir Isaac Newton ( )

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.

Newton’s Laws of Motion

GOLF By: Conner Almond, Kayla Lloyd, Amanda Turner, and Logan Kirkland.

By Lora B. Taylor Law of Inertia 1 st Law 1 st Law – An object at rest will stay at rest, and an object in motion will stay in motion at constant.

The Laws of Motion Newton’s Three Laws of Motion:

Forces in Motion What Do You Think? Explain what you know about Newton’s Laws of Motion.

Sport studies biomechanics.

Projectile Motion.

Forces and Motion Unit Test Study Guide

1 A2 Revision Mechanics of movement. 2 Biomechanics Terms: Displacement; Velocity; Acceleration.

The 3 laws of Motion What is motion anyway? Motion is a change in position, measured by distance and time.

< BackNext >PreviewMain Gravity and Falling Objects Gravity and Acceleration Objects fall to the ground at the same rate because the acceleration due to.

Newton’s Laws of Motion Chapter 6. Newton’s Laws of Motion “Law of inertia” First Law of Motion INERTIA - tendency of an object to resist a change in.

Chapter 15 – section 4. First Law of Motion  Also called the “Law of Inertia”  Inertia – the tendency of an object to stay at rest or remain in motion.

PROJECTILE MOTION. # Projectile motion is very common in sporting situations. # Once a person or object becomes airborne it becomes a projectile. #

Force Notes. Inertia Whether it is moving or at rest, every object resists any change to its motion Inertia is the tendency of an object to resist change.

Projectile Motion.

Biomechanics Linear motion This is motion in a straight line Definitions: Speed: distance moved in a given time Velocity: displacement in a given time.

Resources Section 1 Laws of Motion Objectives Identify the law that says that objects change their motion only when a net force is applied. Relate the.

Newton’s laws of motion, Momentum, & Projectile Motion (pages )  In 1686 Sir Isaac Newton published his book Principia which had 3 laws that relate.

Bio-physical principles Apply to your skill. 3 parameters that affect projectile motion Angle of release (and air resistance) –Determines SHAPE of trajectory.

Newton’s Laws of Motion

Law of Inertia (Newton’s 1st Law)

Application of Forces Learning Objectives:

PHED 3 Exercise Physiology Aerobic Energy System

Biomechanics • Mechanics of movement:

Biomechanical Principles

Newton’s Laws.

NCEA LEVEL 2 Hs 11/11/2018.

Newton’s Laws Of Motion

NCEA LEVEL 2 Hs Tuesday, November 27, 2018 AUTHOR- A.HOSE.

A lot of times this unbalanced external force is friction.

Aerodynamics for Dummies

Any object released into the air is termed a projectile.

Factors Affecting Projectile Motion

Warm-Up What are the two main categories of forces?

Newton’s Laws of Motion

Week 1 Vocabulary.

Any object released into the air is termed a projectile.

Newton’s Laws of Motion

Presentation transcript:

Isaac Newton developed three laws that help us explain the relationship between forces acting on a body and the motion of a body

Newton’s First Law “An object at rest tends to stay at rest until acted on by some external force” Likewise, an object in motion will stay in motion until acted on by another force. This Law can also be known as.. The Law of 75 Kgs 125 Kgs

There are advantages and disadvantages to having a lot of inertia in different sporting situations. With the person beside you: Come up with an example of when a lot of inertia would be an advantage AND when it would be a disadvantage in a sporting situation. How can we apply this law to golf?

Newton’s Second Law “When a force acts upon a mass, the result is acceleration of that mass” This Law can be summarised by an equation

The greater the force, The smaller the mass, when a constant force is applied The mass will accelerate in the direction Consider the situation of a golf swing, How can we apply Newton’s Second Law to produce a more powerful strike??

PROJECTILES!!

Angle of release Determines the flight path of the projectile High angle of release = Longer flight time but less distance Low angle of release = Shorter flight time but more distance

How can this be applied to golf club selection?? Driver and long irons have shallow angle on the club face, driver is angled at 9 degrees, these are designed to get distance. Short irons and wedge have steeply angled club faces, 46 degrees for a wedge and are designed to get height and have stopping ability

Speed of release Speed of release has two components: Vertical velocity Horizontal velocity What are the advantages of having high vertical velocity?? In which sports would this be an advantage? What are the advantages of having high horizontal velocity?? In which sports would this be an advantage??

Height of release Always the same in golf – off the tee.

Spin TOP SPIN – shot will dip suddenly and therefore results in decreased distance. A top spin shot creates a region of high pressure on top of the ball and low pressure below. BACK SPIN– increased distance High pressure is created under the ball with a lower pressure area on the top, causing the ball to float These forces are known as magnus forces or the magnus effect.

Newton’s Third Law “For every action, there is an equal and opposite reaction” What goes up must come down! Action Force Reaction force These two forces ALWAYS work in pairs

Think about where the ACTION and REACTION forces are on these athletes:

How does this law work with golf??