Brain Teaser I wish tomorrow was yesterday so today would be Friday. What day is it?

Slides:

Advertisements

Similar presentations

Uniform circular motion: examples include

Advertisements

7.1 Characteristics of Uniform Circular Motion Objectives

Uniform Circular Motion

Circular Motion and Gravitation

Circular Motion What is Circular Motion? Uniform Circular Motion is motion along a circular path in which there is no change in speed, only a change.

Centrifugal and Centripetal Force. Centripetal versus centrifugal force Centripetal is an inward seeking force while centrifugal force is an outward pulling.

Circular Motion and Other Applications of Newton’s Laws

Rotational Motion = Uniform Circular Motion r r v2v2 v1v1 7v7v 2 2 a b Chord ab c d e f Using similar triangles abc def Where r is.

Uniform Circular Motion

Motion in Two Dimension

Chapter 5 Uniform Circular Motion. Chapter 5 Objectives (*vocab) 1. Centripetal Acceleration centripetal* uniform circular motion* period* formula for.

Motion in 2D Chapter 6.

Circular Motion.

ROTATIONAL MOTION Uniform Circular Motion

Uniform Circular Motion. Motion in a Circle Revolution: If entire object is moving in a circle around an external point. The earth revolves around the.

Circular Motion. Uniform Circular Motion Motion of an object at constant speed along a circular path.

Centripetal Motion Motion towards the center of a circle.

Uniform Circular Motion. What is uniform circular motion? 4 Movement of an object at constant speed around a circle with a fixed radius 4 Can the velocity.

7-3 Circular Motion. As an object travels in uniform circular motion Its tangential speed remains constant The direction of its velocity is constantly.

Objectives  Explain why an object moving in a circle at a constant speed is accelerated.  Describe how centripetal acceleration depends upon the object’s.

Circular Motion. Uniform Circular Motion Speed of object may be constant Velocity is constantly changing Direction of the velocity is tangent to the circle.

Round and round… Circular Motion. Circular Velocity If this is true, why does ANYTHING move in a circle? How do we define VELOCITY? What ‘d’ are we talking.

Round and Round Circular Motion. If this is true, why does ANYTHING move in a circle? CIRCUMFERENCE C = 2πr = πd PERIOD (T) Time for one revolution.

Centripetal Acceleration is a vector quantity because it has both direction and magnitude. Centripetal Acceleration is defined as an acceleration experienced.

Circular motion Objectives: understand that acceleration is present when the magnitude of the velocity, or its direction, or both change; understand that.

Circular motion.

Circular Motion A brief intro.. Uniform Circular Motion UCM is the movement of an object or particle trajectory at a constant speed around a circle with.

Uniform Circular Motion. Acceleration When an object moves at a constant speed in a circular path, it is constantly changing direction – accelerating.

Circular Motion. PhET Lady Bug Motion Think about this Click “Show Both” at the top, and “Circular” at the bottom Watch the following and comment: Which.

Conceptual Physics Notes on Chapter 9 CircularMotion.

Circular Motion = the movement of an object at constant speed around a circle with fixed radius Axis – straight line around which rotation takes place.

PRINCIPLES OF PHYSICS Circular Motion. When an object moves in a circle its path is described by: Radius (r) – distance from the center to the perimeter.

Circular Motion Physics.

Sect. 5-2: Uniform Circular Motion. The motion of a mass in a circle at a constant speed. Constant speed  The Magnitude (size) of the velocity vector.

Set 4 Circles and Newton February 3, Where Are We Today –Quick review of the examination – we finish one topic from the last chapter – circular.

C H A P T E R 5 Dynamics of Uniform Circular Motion.

Happy Thursday Grab your calculator Get ready to take notes Get ready for your warm up No quiz tomorrow Next test: after Thanksgiving break.

Gravitation. Gravitational Force the mutual force of attraction between particles of matter Newton’s Law of Universal Gravitation F g =G(m 1* m 2 /r 2.

Dynamics of Uniform Circular Motion Uniform Circular Motion Centripetal Acceleration Centripetal Force Satellites in Circular Orbits Vertical Circular.

Circular Motion r v F c, a c. Centripetal acceleration – acceleration of an object in circular motion. It is directed toward the center of the circular.

1 Uniform Circular Motion SP1. Students will analyze the relationships between force, mass, gravity, and the motion of objects. g. Measure and calculate.

In this section you will:

Circular Motion: Gravitation Chapter Kinematics of Uniform Circular Motion  Uniform circular motion is when an object moves in a circle at constant.

Projectiles Motion in Two Dimensions Chapter 7. Projectile An object launched into the air by a force Trajectory The path followed by a projectile.

Uniform circular motion and Universal Gravitation

C ENTRIPETAL A CCELERATION. This unit we will investigate the special case of kinematics and dynamics of objects in uniform circular motion – traveling.

Circular Motion. Unit Learning Targets I can differentiate between centripetal and centrifugal I can define period and frequency I can apply Newton’s.

Uniform circular motion is the motion of an object traveling at a constant speed on a circular path. Uniform Circular Motion.

Physics Section 7.1 Define and apply circular motion What is circular motion? Any object that revolves about.

Circular Motion Chapter 7.3. Motion & Forces What you already know: –Velocity – a measure of the change in displacement (distance with direction. –Mass.

Unit 4 Vocabulary Terms Circular Motion. Radius - R The radius is defined as half the diameter of a circle or the distance from the edge of a circle to.

Circular Motion Chapter 7 Section 1. What are we discussing today? Circular motion Centripetal acceleration & Centripetal force Tangential Speed You will.

UNIFORM CIRCULAR MOTION Centripetal force. UNIFORM CIRCULAR MOTION  Motion at a constant speed around a circle with a constant radius. V Fc Ac.

Circular Motion Aim: How do objects travel in circular paths?

Aim: How can we describe circular motion? Circular Motion.

Uniform Circular Motion. 4 dXxQ7o dXxQ7o.

Circular Motion 6.2 In this section you will:

Circular Motion What are some examples of objects taking a circular path? What force causes those objects to follow that path?

Circular Motion 6.2 In this section you will:

Circular Motion Motion of an object moving in a circular path.

Physics-Unit 4-Motion in Two Dimensions

CIRCULAR MOTION.

Circular Motion.

Centripetal Acceleration Centripetal Force

Circular motion - chapter 6

Circular Motion Uniform circular motion: examples include

In this section you will:

Uniform Circular Motion

Circular Motion What is acceleration?

constant speed. Is the object accelerating?

Presentation transcript:

Brain Teaser I wish tomorrow was yesterday so today would be Friday. What day is it?

Circular Motion Ms. Bartlett December 7-8, 2015

Circular Motion Centripetal Acceleration Centripetal – center seeking; toward the center centripetal acceleration (ac) – acceleration toward the center of circular motion. The formula for centripetal acceleration is: where v is the tangential velocity and r is the radius of the circle uniform circular motion – the movement of an object at a constant speed around a circle with a fixed radius.

Centripetal Acceleration One way of measuring the speed of an object moving in a circle is to measure its period, T, the time needed for the object to make one complete revolution. The frequency, f, is how many revolutions per second. T = 1/f(period is the reciprocal of frequency) During this time, the object travels a distance equal to the circumference of the circle, 2πr. The object’s speed, then, is represented by v = 2πr/T. v = distance = 2πr time T

Centripetal Acceleration Since and v = 2πr T then

Centripetal Acceleration Because the acceleration of an object moving in a circle is always in the direction of the net force acting on it, there must be a net force toward the center of the circle. This force can be provided by any number of agents. When a hammer thrower swings the hammer, as in the adjoining figure, the force is the tension in the chain attached to the massive ball.

Circular Motion When an object moves in a circle, the net force toward the center of the circle is called the centripetal force. To analyze centripetal acceleration situations accurately, you must identify the agent of the force that causes the acceleration (such as tension on a string). Then you can apply Newton’s second law for the component in the direction of the acceleration in the following way. Newton’s Second Law for Circular Motion F = m a The net centripetal force on an object moving in a circle is equal to the object’s mass times the centripetal acceleration.

Circular Acceleration r is the radius of the circle v is the tangential velocity a (or a c ) is the centripetal acceleration F c is the centripetal force

A Nonexistent Force According to Newton’s first law, you will continue moving with the same velocity unless there is a net force acting on you. The passenger in the car would continue to move straight ahead if it were not for the force of the door acting in the direction of the acceleration. The so-called centrifugal force, or apparent outward force, is a fictitious, nonexistent force. Centrifugal – center fleeing; away from the center.

Circular Motion Review Formulas: F c = m a c = mv 2 r a c = v 2 = 4π 2 r r T 2 T is the period (time for one revolution around the circle.) The distance around the circle is 2  r. Uniform circular motion has constant speed and constant radius. The net force toward the center of the circle causes the centripetal acceleration.

HOMEWORK Finish the Kinematics Packet. Next time we will work exclusively with circular motion problems. You will have a projectile & circular motion test on Fri/Mon.