Section 2Forces Section 2: Gravity Preview Key Ideas Bellringer Weight and Mass Law of Universal Gravitation Free Fall Projectile Motion.

Slides:

Advertisements

Similar presentations

- Newton’s First and Second Laws - Gravity 3 - Newton’s Third Law

Advertisements

 white – main ideas  purple – vocabulary  pink – supplemental/review information.

Chapter 13 Physical Science.

Chapter 13, Section 2 Gravity and Motion

Gravity and Free Fall.

Friday, Jan. 29 th Agenda Collect Homework: “Isaac Newton” WS Finish section 7.3: –free fall, weight, terminal velocity, Newton’s 3 rd law In-Class Assignment.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Law of Universal Gravitation Sir Isaac Newton (1642–1727) gave us.

Studying the Force of Gravity

Gravity, Air Resistance, Terminal Velocity, and Projectile Motion

Do Now Monday, 4/2 Take our your notebook and answer the following question: What is the difference between weight and mass? You have 4 minutes. I will.

Physical Science Gravity. Objectives Explain that gravitational force becomes stronger as the masses increase and rapidly become weaker as the distance.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Section 2 Gravity Objectives Explain that gravitational force becomes.

SPS8.c Relate falling objects to gravitational force.

Forces. Newton’s First and Second Laws Newton’s 1 st law of motion deals with inertia An object at rest remains at rest, an object in motion maintains.

Gravity. Law of Universal Gravitation The force of gravity applies to everything in the universe The force of gravity applies to everything in the universe.

Chapter 3 Lesson 2.

G RAVITY February 9, J OURNAL : 2/9/2011 A soccer ball is pushed with a force of 15.2 N. The soccer ball has a mass of 2.45 kg. What is the ball’s.

Chapter 3 Forces.

The Laws of Motion Chapter 4.

Bellringer/11.2 Notes Recall that weight is defined as a measure of the gravitational force exerted on an object. Use knowledge you have about gravity.

Gravity. Gravity A force of attraction between objects that is due to their masses. A force of attraction between objects that is due to their masses.

Gravity and Motion. Acceleration due to gravity Acceleration-the rate at which velocity changes over time. All objects accelerate toward Earth at a rate.

Forces & Motion Chapter 12.  Newton ’ s first law of motion - an object at rest remains at rest and an object in motion maintains its velocity unless.

Notes: Chapter 11.2 Gravity and Projectile Motion.

Chapter 12.  Newton ’ s first law of motion - an object at rest remains at rest and an object in motion maintains its velocity unless it experiences.

Forces Chapter 12. Newton’s 1 st Law Newton’s First Law: an object at rest will remain at rest and an object in motion maintains its velocity unless it.

Physical Science Chapter 6 Forces & Motion Section 1 Gravity and Motion Objs fall to the ground at the same rate because the acceleration due to G is.

Chapter 6 Forces in Motion.

< BackNext >PreviewMain Chapter 13 Forces and Motion Preview Section 1 Gravity: A Force of AttractionGravity: A Force of Attraction Section 2 Gravity and.

Chapter 20 Forces and Motion Preview Section 1 Gravity and MotionGravity and Motion Section 2 Newton’s Laws of MotionNewton’s Laws of Motion Section 3.

Gravity Physical Science Section 3.2. Gravity All objects have a gravitational attraction for all other objects Law of Gravitation- Any two masses exert.

Forces Chapter 3. Section 2: Gravity What you will learn: 1. Describe the gravitational force. 2. Distinguish between mass and weight. 3. Explain why.

11.2 Gravity I can: -calculate gravitational force (weight) from mass. -recognize that the stronger the field the greater the force exerted by that field.

Chapter 11-2 Gravity. Law of Universal Gravity All objects in the universe attract each other through gravitation force- dependant on mass and distance.

Gravity and Free Fall Felix Baumgartner's supersonic freefall.

Gravity Newton realized that a force acts to pull objects straight down toward the center of Earth. He called this force gravity. Gravity is the force.

Gravity 1.Gravity requires air/atmosphere. 2.The strength of a gravitational force depends on the mass of objects. 3.ALL objects in the Universe attract.

Gravity Chapter Gravity Law of Universal Gravitation- all objects in the universe attract each other through gravitational force Law of Universal.

Force Unit Part 2: Gravity. Objectives  Explain the law of universal gravitation and how applies to objects on Earth both still and falling and in space.

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.

Gravity and Motion Chapter 2 Section 1

© 2004 Pearson Education Inc., publishing as Addison-Wesley 5. Universal Laws of Motion “ If I have seen farther than others, it is because I have stood.

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

Section 2Forces EQ: 〉 What is the relationship between free-fall acceleration and mass?

Gravitational Force  Gravity= a force of attraction between objects, “pulls” objects toward each other  Law of universal gravitation= all objects in.

Section 1 Review State Newton’s first law of motion in your own words

Gravity Key Concepts What factors affect the gravitational force between two objects? Why do objects accelerate during freefall?

Chapter 13 Motion and Forces.

Chapter 12 Section 2 Gravity Objectives

Weight and Mass How are weight and mass related?

Notes: Chapter 11.2 Gravity and Projectile Motion

Unit 7 Lesson 2. Gravity: A Force of Attraction A

Section 1: Newton’s First and Second Laws

Chapter 12 Section 2 Key Ideas

All things with are affected by .

Physical Science Chapter 12 Section 2

Chapter 13 Preview Section 1 Gravity: A Force of Attraction

Gravity, Mass and Weight

Gravity Key Concepts What factors affect the gravitational force between two objects? Why do objects accelerate during freefall?

Gravity Chapter 12 Section 2.

Gravity Week of October 22nd.

Section 1 Laws of Motion p. 346

Section 2: Gravity Preview Key Ideas Bellringer Weight and Mass

Section 2: Gravity Preview Key Ideas Bellringer Weight and Mass

Section 2: Gravity Preview Key Ideas Bellringer Weight and Mass

Gravity Chapter 12.2.

Presentation transcript:

Section 2Forces Section 2: Gravity Preview Key Ideas Bellringer Weight and Mass Law of Universal Gravitation Free Fall Projectile Motion

Section 2Forces Key Ideas 〉 How are weight and mass related? 〉 Why do objects fall to the ground when dropped? 〉 What is the relationship between free-fall acceleration and mass? 〉 Why does a projectile follow a curved path?

Section 2Forces Bellringer Recall that weight is defined as a measure of the gravitational force exerted on an object. Use knowledge you have about gravity to answer the questions in the following situations. 1.Elvis is a student whose mass is 70 kg. On Earth’s surface, Elvis weighs about 690 N. Suppose Elvis could stand on the surface of the following bodies in the solar system. In the blanks provided, match Elvis’s weight with the letter of the appropriate body. (Hint: Earth has a mass of 6.0 x kg.) Planet Elvis’s weight a. Jupiter (m = 1.9 x kg)780 N _______ b. Venus (m = 4.9 x kg) 113 N _______ c. Neptune (m = 1.0 x kg) 260 N _______ d. Mercury (m = 3.3 x kg) 1800 N _______ e. Earth’s moon (m = 7.4 x kg) 620 N _______

Section 2Forces Bellringer, continued 2. Suppose Elvis is in orbit around Venus at a distance twice as far from the planet’s center as the surface of Venus is. Would you expect his weight to be greater than, less than, or equal to his weight on the surface of the planet?

Section 2Forces Weight and Mass 〉 How are weight and mass related? 〉 Weight is equal to mass times free-fall acceleration. weight: a measure of the gravitational force exerted on an object weight = mass x free-fall acceleration, or w = mg

Section 2Forces Weight and Mass, continued Weight is measured in newtons. Weight is different from mass. –mass = a measure of the amount of matter in an object –weight = the gravitational force an object experiences because of its mass

Section 2Forces Visual Concept: Comparing Mass and Weight Click the button below to watch the Visual Concept.

Section 2Forces Law of Universal Gravitation 〉 Why do objects fall to the ground when dropped? 〉 All objects in the universe attract each other through the force of gravity.

Section 2Forces Law of Universal Gravitation, continued Newton’s law of universal gravitation gives the size of the gravitational force between two objects: –m 1 and m 2 are the masses of the two objects –d is the distance between the two objects –G is a constant

Section 2Forces Law of Universal Gravitation, continued All matter is affected by gravity. –Two objects, whether large or small, always have a gravitational force between them. –When something is very large, like Earth, the force is easy to detect. Gravitational force increases as mass increases. Gravitational force decreases as distance increases.

Section 2Forces Law of Universal Gravitation, continued

Section 2Forces Visual Concept: Law of Universal Gravitation Click the button below to watch the Visual Concept.

Section 2Forces Free Fall 〉 What is the relationship between free-fall acceleration and mass? 〉 In the absence of air resistance, all objects falling near Earth’s surface accelerate at the same rate regardless of their mass. free fall: the motion of a body when only the force of gravity is acting on the body

Section 2Forces Visual Concept: Free Fall Click the button below to watch the Visual Concept.

Section 2Forces Free Fall, continued Astronauts in orbit are in free fall. Air resistance can balance weight. –terminal velocity: the constant velocity of a falling object when the force of air resistance is equal in magnitude and opposite in direction to the force of gravity

Section 2Forces Projectile Motion 〉 Why does a projectile follow a curved path? 〉 Projectile motion has two components— horizontal and vertical. When the two motions are combined, they form a curved path. projectile motion: the curved path that an object follows when thrown, launched, or otherwise projected near the surface of Earth

Section 2Forces Projectile Motion, continued Projectile motion has a horizontal component. –After you have thrown a ball, no horizontal forces are acting on the ball (if air resistance is ignored). So, the horizontal component of velocity of the ball is constant after the ball leaves your hand. Projectile motion also has a vertical component. –When you throw a ball, gravity pulls it downward, which gives the ball vertical motion. In the absence of air resistance, gravity on Earth pulls objects that are in projectile motion downward with an acceleration of 9.8 m/s 2, just as it pulls down all falling objects.

Section 2Forces Projectile Motion, continued Orbiting is projectile motion.

Section 2Forces Visual Concept: Projectile Motion Click the button below to watch the Visual Concept.