Presentation is loading. Please wait.

Presentation is loading. Please wait.

Newton’s 1 st Law of Motion, Weight & Applying Newton’s 2 nd Law Chapter 6.2 System.

Published byDennis Bradford Modified over 8 years ago

Similar presentations

Presentation on theme: "Newton’s 1 st Law of Motion, Weight & Applying Newton’s 2 nd Law Chapter 6.2 System."— Presentation transcript:

1 Newton’s 1 st Law of Motion, Weight & Applying Newton’s 2 nd Law Chapter 6.2 System

2 What You Already Learned Newton’s 2 nd Law of Motion. a = F net /m

3 Inertia Inertia was a term first coined by Galileo. –He suggested that objects in motion would remain so unless acted upon by friction. –Inertia is an objects resistance to change in motion. For two objects of the same size, the more mass an object has, the more inertia it has.

4 Newton’s 1 st Law of Motion Newton later revised Galileo’s theory: –An object in motion will remain in motion in a straight line with constant speed unless acted upon by an unbalanced force. and –An object at rest will remain at rest unless acted upon by an unbalanced force. Newton’s 1 st Law of motion is also known as the Law of Inertia.

5 Inertia and Motion If the net sum of external forces on an object was equal to zero, would the object change direction or accelerate? No –If the forces are balanced, then no acceleration or change in direction will occur. F forward F friction F ground-on-car F gravity If the forces are balanced, then the vehicle will continue to travel at a constant velocity. System

6 Inertia with Tableware http://www.youtube.com/watch?v=- cM9S2AzU28&feature=player_embedded

7 Misconceptions about Forces Is a force required after a ball is released while throwing to make it continue in its path? No: once the contact force between the hand and the ball are broken, there is no longer a force propelling the ball forward.

8 Misconceptions about Forces Is inertia a force? –No: Inertia is the tendency for an object to resist a change in velocity. –Inertia is a property of matter. –The more mass an object has, the more inertia it has. –Forces that exist in the environment act on objects.

9 Misconceptions about Forces Does air exert a force? –Yes Objects that are not moving relative to their surroundings experience a balance of forces due to the air in the atmosphere (Barometric pressure = 101.3 Pa = 14.7 psi). Objects in motion experience the forces due to air acting on the side of the object facing the direction that it is moving. As the cross- sectional area increases the force increases. –Ex. Air drag on skydivers, automobiles, etc.

10 What’s the difference between mass and weight? Mass is a property of an object that quantifies (provides a numerical value) for the amount of matter (protons and neutrons) that it contains. Weight is a measure of the force of attraction on a body that is directly related to the amount of mass and gravity. Mass is the same everywhere, while weight will change with distance from other bodies. NOTE: MASS AND INERTIA ARE THE SAME!

11 Determining Weight If the mass of an object is known, its weight can be determined using Newton’s 2 nd Law of Motion. oF g = mg Where: m = mass g = acceleration due to gravity (g = 9.81 m/s 2 ).

12 Example: Mass vs. Weight On Earth: –Mass = 1 kg –Weight = 9.8 N On the Moon: –Mass = 1 kg –Weight = 1.62 N (g m = 1.62 m/s 2 ) Why is the weight on the moon so much less? –Because the gravitational force of attraction on the moon is 1/6 th that on Earth. Note: The mass is the same on both the Earth and the Moon.

13 Example 1: How will your weight change? You have a mass of 75 kg and are standing on a bathroom scale in an elevator. The elevator accelerates from rest at a rate of 2.0 m/s 2 for 2 s and then continues at constant speed. 1.What is the scale reading during acceleration? 2.How does this reading compare to that of the scale at rest? 3.How does this reading compare to that of the scale when the elevator is moving at constant v?

14 Diagram Problem F scale F gravity System +y F scale F gravity F net F net = F scale - F gravity a

15 State the Known and Unknowns What is known? oMass (m) = 75 kg oAcceleration (a) = 2.0 m/s 2 oTime (t) = 2.0 s What is not known? oF scale = ?

16 Perform Calculations F net = F scale – F gravity (1) Where: oF net = ma oF gravity = mg Rearranging (1) to solve for F scale : oF scale = F net + F gravity oF scale = ma + mg oF scale = m(a + g) oF scale = (75 kg)(2.0 m/s 2 + 9.8 m/s 2 ) oF scale = 890 N

17 Scale Reading at Rest and Constant Speed When the elevator is at rest or not accelerating, equation (1) [ F net = F scale – F gravity ] reduces to: F scale = F gravity Since the forces are balanced, there is no acceleration (Newton’s 1 st Law of Motion) and F Net = 0.

18 Key Ideas Inertia is a measure of an objects resistance to change in motion. Newton’s 1 st Law of motion is also known as the law of inertia. Size being equal, the more mass a body contains, the more inertia it has. If the sum of the forces on a body equal zero, then the object will remain at rest, or remain in motion at a constant velocity.

19 Key Ideas Mass is a property of a material that is a measure of the amount of matter it contains. Weight is a measure of the force on an object that is proportional to its mass and acceleration due to gravity.

Download ppt "Newton’s 1 st Law of Motion, Weight & Applying Newton’s 2 nd Law Chapter 6.2 System."

Similar presentations

Forces and Newton’s Laws. Force A force is what we call a push, or a pull, or any action that has the ability to change motion. There are two units of.

Forces and Newton’s Laws. Force A force is what we call a push, or a pull, or any action that has the ability to change motion. There are two units of.
Chapter 13 Forces.

Chapter 13 Forces.
The Laws of Motion Chapter 4 2014-2015. The First Two Laws of Motion Section 4-1 The British Scientist Isaac Newton published a set of three rules in.

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.
Motion Notes Speed Momentum Acceleration and Force Friction and Air Resistance Newton’s Laws of Motion.

Motion Notes Speed Momentum Acceleration and Force Friction and Air Resistance Newton’s Laws of Motion.
Newton’s First and Second Laws of Motion

Newton’s First and Second Laws of Motion
Chapter 13: Kinetics of a Particle: Force and Acceleration.

Chapter 13: Kinetics of a Particle: Force and Acceleration.
Newton’s Second Law of Motion Page 356-362. Force and Acceleration Force is a push or a pull. Acceleration is when the motion of an object changes. Examples:

Newton’s Second Law of Motion Page Force and Acceleration Force is a push or a pull. Acceleration is when the motion of an object changes. Examples:
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:

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:
I. FORCES.

I. FORCES.
Forces Chapter 4. Force & Motion Force-a push or a pull on an object System-the object(s) experiencing the force Environment-the world around the system.

Forces Chapter 4. Force & Motion Force-a push or a pull on an object System-the object(s) experiencing the force Environment-the world around the system.
Motion and Forces Chapter 2.

Motion and Forces Chapter 2.
Force A push or pull exerted on an object..

Force A push or pull exerted on an object..
Newton’s Second Law of Motion. Force and Acceleration Force is a push or a pull acting on an object. Acceleration occurs when the VELOCITY of an object.

Newton’s Second Law of Motion. Force and Acceleration Force is a push or a pull acting on an object. Acceleration occurs when the VELOCITY of an object.
Forces and the Laws of Motion

Forces and the Laws of Motion
Chapter 3 – Forces and Motion

Chapter 3 – Forces and Motion
Forces & Newton’s Laws Ch. 4. Forces What is a force? –Push or pull one body exerts on another –Units = Newton (N) –Examples: List all of the forces that.

Forces & Newton’s Laws Ch. 4. Forces What is a force? –Push or pull one body exerts on another –Units = Newton (N) –Examples: List all of the forces that.
What is a Force? A force is a push or a pull causing a change in velocity or causing deformation.

What is a Force? A force is a push or a pull causing a change in velocity or causing deformation.
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.

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.
Sir Isaac Newton 1642-1727. 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.

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.
Laws of Motion Forces: chapter 11. 1 st Law An object at rest remains at rest and an object in motion maintains its velocity unless it experiences an.

Laws of Motion Forces: chapter st Law An object at rest remains at rest and an object in motion maintains its velocity unless it experiences an.

Similar presentations

Ads by Google