Physical Science Chapter 2

Slides:



Advertisements
Similar presentations
Chapter 12- Forces Physical Science.
Advertisements

Forces & Motion Unit Vocabulary
Section 1: The Nature of Force Force – a push or pull on an object; causes an object to accelerate. 0 m/s 3 m/s.
Newton’s Laws.
Friction Gravity Newton’s Laws Momentum Forces.
Pearson Prentice Hall Physical Science: Concepts in Action
Chapter 10 Forces. Force and Net Force Force is a push or a pull on an object. Net force is the total force on an object.
Newton’s Laws of Motion
Sir Isaac Newton English physicist & mathematician …he developed the 3 laws of motion Motion is any change in position! p. 45 Click here.
Physics: Newton’s Laws
What is net force?.
$200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $ 300 $400 $500 $100 $200 $300 $400 $500 $100 What is a Force? Newton’s.
Chapter 11 Newton’s Laws of Motion. Chapter 10 breakdown Position Position Motion Motion Speed Speed Velocity Velocity Vector Vector Acceleration Acceleration.
S-24 Define the following terms A. Weight B. Gravity C. Friction
Physical Science Unit:
Physical Science: Concepts in Action
Do Now: What are Newton’s 3 Laws of Motion?. Do Now: What are Newton’s 3 Laws of Motion?
Chapter 12 Forces and Motion ForcesForces and Motion 12.1 Forces A force is a push or pull that acts on an object. A force is a push or pull that.
Resistance of an object to a change in its motion inertia.
Sir Isaac Newton Newton’s Laws of Motion Newton’s 1st Law of Motion -An object at rest, will remain at rest, unless acted upon by an unbalanced.
1 Force and Laws of Motion S.8.C.3.1.1,2 Unit 3 Lesson 7 The physics classroom website.
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.
Chapter 12.  Force: a push or pull that acts on an object  Key Point: a force can cause a resting object to move or it can accelerate a moving object.
Motion & Forces.
NOTE: This presentation was not made for public use. Please do not use this presentation without my permission and the permission of each of the authors.
Hosted by Mr. Gomez Force/ Momentum NewtonGravityFriction Final Jeopardy.
All forces that affect motion.
1 Chapter 10-Forces All forces that affect motion.
Physical Science Chapter 10 Forces. Objectives Describe what a force is Explain how balanced and unbalanced forces are related to motion.
Force = a push or a pull Mrs. Clarici
/ A force is a push or a pull that changes motion. / Forces transfer energy to an object. / The force of gravity causes objects to have weight. / The.
Forces & Motion. What is a Force? Force: push or pull Unit: Newton (N)  Kg x m/s 2 Vector: has both magnitude & direction.
Forces. I. Section 1 A. Newton- (N) the SI unit for the magnitude of a force. Also called weight. B. Force- a push or a pull. Described by its magnitude.
Forces & Motion. Motion A change in the position of an object Caused by force (a push or pull)
Unit 1, Chapter 3 Integrated Science. Unit One: Forces and Motion 3.1 Force, Mass and Acceleration 3.2 Weight, Gravity and Friction 3.3 Equilibrium, Action.
Forces 1 Forces 2 Forces 3 Forces 4 Forces 5 Forces 6 $ $ $ $ $ $ $ $ $ $
Describing and Measuring Motion Are you in motion right now? Motion: an object is in motion if the distance from another object is changing.
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.
Chapter 10 Forces.
Chapter 10 Forces. Chapter 10 Forces (10.1) The Nature of Force GOAL: To understand how force is distributed, and how forces act on one another. VOCABULARY.
Section 1: The Nature of Force
Physical Science Chapter 12
Force.
Chapter 8 Forces & Motion.
Motion.
Physical Science: Concepts in Action
11.8 Forces Review.
newton’s laws of motion
Forces.
11.5 Forces.
Motion & Forces.
FORCE and MOTION Unit 1.
Chapter Review.
Chapter 12: ALL ABOUT MOTION
Forces.
Physical Science Forces.
Newton’s Laws of Motion
Chapter 10 SG Review Advanced.
Forces Unit Note-Taking.
Chapter 10 Vocab Review 8th Grade.
Newton’s Laws of Motion
Sir Isaac Newton
STATE EXPECTATIONS - FORCES
Connecting Motion with Forces
Force and Motion Vocabulary
Forces and Motion Investigate and apply Newton’s three laws of motion.
Forces & Motion.
Chapter 12 Forces and Motion.
Force and Motion Vocabulary
Force and Motion Shopping Review
Presentation transcript:

Physical Science Chapter 2 Forces

The Nature of Force A Push Or A Pull By definition, a Force is a push or a pull. A Push Or A Pull Just like Velocity & Acceleration Forces have both magnitude and direction components

Balanced & Unbalanced Forces With a Balanced force – opposite and equal forces acting on the same object result in NO motion of the object Unbalanced forces – two or more forces of unequal strength or direction acting upon on an object results in the motion of the object

Vectors Vectors are a method used to visually show forces A vector is a quantity which has both magnitude (size) and direction. The length of the arrow shows the magnitude of the vector. The angle of the arrow shows the vector's direction. Just like numbers, we can add two or more vectors together and get a net force called the resultant

Add vectors A and B to get the Resultant C Adding 2 or More Vectors Fig 1 Fig 3 Fig 2 Add vectors A and B to get the Resultant C A + B = C Fig 1 - shows the magnitude & direction of the 2 vectors we are adding Fig 2 – we move the beginning of vector B to the end of Vector A, making sure to keep the magnitude & direction exactly the same Fig 3 – Connect the beginning of Vector A to the end of Vector B, this is your “Resultant” C. Click the icon to run java script game that allows you to add vectors

Newton’s 3 Laws of Motion Newton’s 1st Law of Motion: AKA The Law of Inertia which states an object at rest will remain at rest, and an object in motion will remain in motion at a constant velocity until acted on by another force. Remember: The greater the mass of an object the greater the inertia

Newton’s 3 Laws of Motion Newton’s Second Law of Motion aka F=ma Force = mass x acceleration Can be written as: F=ma ; a= F/m ; m= F/a What is the basic unit for mass? Kilogram What is the basic unit for acceleration? Meter/sec/sec Therefore the basic unit for Force is (kilogram)( meter/sec/sec) An object with a mass of 1 kg accelerating at 1 m/s/s has a force of 1 Newton Ding-a-ling!!

Newton’s 2nd Law & Force of Gravity Everyone has heard of the FORCE of gravity So far, we know only of four types of fundamental forces in nature: Gravity, Electromagnetic, Weak, and Strong Gravity: the force that pulls objects towards each other Since gravity is a force it also obeys Newton’s second law F=ma Since objects fall at the same speed, their acceleration is the same. All objects accelerate at the rate. Here on Earth the rate is: Ag=9.8 m/s2 Or Ag=32 ft/s2 With this experiment, Galileo proved Aristotle wrong Air resistance keeps things from falling equally With this experiment, Apollo 15 astronauts proved Galileo right. (link to You Tube)

Newton’s 2nd Law & Weight F=ma Weight is the force of gravity acting on an object’s mass. Therefore weight is a type of Force The formula for weight: Weight = mass x Ag Since Ag= 9.8 m/s2 then Weight = mass x 9.8 m/s2 Got it? I hope so… it’s a ding-a-ling! Remember: 1 newton = 0.22 pounds

Your weight on other planets & 3 different types of stars

Newton’s 3 Laws of Motion Newton’s 3rd Law of Motion: For every action there is an equal & opposite reaction. If an object is not in motion, then all forces acting on it are balanced and the net force is zero! Friction – the force that one surface exerts on another when the two rub against each other. Fluid friction Sliding friction Rolling friction

Momentum An object’s momentum is directly related to both its mass and velocity. Momentum = mass x velocity For some reason, maybe because mass is designated as “m” in formulas, momentum is designated as “p”. Therefore: p = mv The unit for mass is kg, the unit for velocity is meter/second, therefore the unit for momentum is kg m/sec Conservation of Momentum: When two or more objects interact (collide) the total momentum before the collision is equal to the total momentum after the collision

Momentum – 2 moving objects During this collision the speed of both box cars changes. The total momentum remains constant before & after the collision. The masses of both cars is the same so the velocity of the red car is transferred to the blue car.

Momentum – 1 moving object During this collision the speed red car is transferred to the blue car. The total momentum remains constant before & after the collision. The masses of both cars is the same so the velocity of the red car is transferred to the blue car.

Momentum – 2 connected objects After this collision, the coupled cars make one object w/ a total mass of 60,000 kg. Since the momentum after the collision must equal the momentum before, the velocity must change. In this case the velocity is reduced from 10 m/sec. to 5 m/sec.

Let’s call it a night…. Take a break. Cya Later!