Science Starter!. Example A jumbo jet taxiing down the runway received word that it must return to the gate to pick up an important passenger who was.

Slides:

Advertisements

Similar presentations

Linear Motion Problems Group Practice! Grab a whiteboard and a box set.

Advertisements

Objectives: 1.Be able to distinguish between distance and displacement 2.Explain the difference between speed and velocity 3.Be able to interpret motion.

Kinematics- Acceleration Chapter 5 (pg ) A Mathematical Model of Motion.

KINEMATICS in One Dimension

Projectile Motion Do not try this at home!.

Kinetics of a Particle:

9/23 do now – on a new sheet Which of the following is the expression for average velocity? Homework questions?

How do you calculate acceleration?

Science Starter! Complete the worksheet “Science Starter!” (on teacher’s desk).

Kinematics in Two Dimensions Chapter 3. Expectations After Chapter 3, students will:  generalize the concepts of displacement, velocity, and acceleration.

2.2 Acceleration Physics A.

Acceleration. The concepts of this lesson will allow you to: Explain the terms that are associated with motion and acceleration. Analyze acceleration.

Print Tutorial Click Screen for Next Step Return to Main MenuMenu Solving Kinematic Problems Using Equation I v f = v i + at Section 1.

Preview Section 1 Introduction to Vectors Section 2 Vector Operations

Edexcel AS Physics Unit 1 : Chapter 3: Rectilinear Motion Prepared By: Shakil Raiman.

© Shannon W. Helzer. All Rights Reserved. 1 Unit 4 Two Dimensional Kinematics Projectile Motion.

Projectiles Horizontal Projection Horizontally: Vertically: Vertical acceleration g  9.8 To investigate the motion of a projectile, its horizontal and.

Acceleration Physics 1 Dimensional Motion Chapter 2 Section 2 – pages

Constant Acceleration. What is average acceleration? The average acceleration over a period of time is just that…an average. – What limitations does it.

Lesson Average Speed, Velocity, Acceleration. Average Speed and Average Velocity Average speed describes how fast a particle is moving. It is calculated.

PHYS 20 LESSONS Unit 2: 2-D Kinematics Projectiles Lesson 5: 2-D Projectiles.

Solving Absolute Value Equations. Warm Up With a partner find the absolute value of the following:

Newton’s 2 nd Law Physics October 25/26. Objectives 1.State the relationship between acceleration, mass and net force 2.Evaluate how the relationship.

© 2010 Preston PowerPoints Constant Rate of Change Section 1.7.

Honors Physics 28 Sept 09 Today: Intro to on-line text and acceleration Homework: Read section 2.2 p Text address: Tomorrow: We.

2.2 Acceleration. Biblical Reference But flee there quickly, because I cannot do anything until you reach it. Genesis 19:22 Flight of Lot.

ACCELERATION Chapter 4 Acceleration A change in velocity (speed or direction)

If a car moving at +2.0 m/s accelerates at a rate of +4.0 m/s 2 for 2.5 second, what is its final velocity?

Solving Uniform Acceleration Problems. Equations for Uniformly Accelerated Motion variable not involved - d variable not involved - a variable not involved.

Example Problem A car is traveling on a dry road with a velocity of m/s. The driver slams on the brakes and skids to a halt with an acceleration.

Kinematics Problems. A runner accelerates from 0 to 6.00 m/s in 3.00 s. What is the runner’s acceleration?

Physics schedule 11/16/15 11/16 Motion Graphs TB p HW: SF-Data Analysis and Abstract due 11/20 11/17 Motion Graphs TB p. 50 #6 11/18Graphing Motion.

Print Tutorial Click Screen for Next Step Return to Main Menu Solving Kinematic Problems Using Equation III d = v i t + ½ at 2 Section 1.

Linear or 1-Dimensional Motion  Mechanics (Physics) = Study of motion of objects, and the related concepts of force and energy.  Kinematics = Description.

 To describe motion in terms of displacement, time, acceleration and velocity.  To interpret graphs of position vs. time.  To apply kinematic equations.

Acceleration Acceleration is the rate of change of velocity.

Print Tutorial Click Screen for Next Step Return to Main MenuMenu Solving Kinematic Problems Using Equation II d = ½ (vi + vf)t Section 1.

Chapter 3 Motion in 2 dimension. Chapter 3 Objective Differentiate between scalar and a vector Understand how to calculate a vector Describe projectile.

Unit 4: Two-Dimensional Kinematics. Difference between 1-D and 2-D  One Dimension Up / Down Back / Forth Left / Right Example:  Driving a car down a.

Kinematic Equations Chapter 2 Section 2. Accelerated Motion  Motion with constant acceleration is what we will mostly look at in this class  Example:

Sept 15 th Kinematics questions from yesterday Quiz Wednesday.

1 Physics Chapter 2 Motion in One Dimension Topics:Displacement & Velocity Acceleration Falling Objects.

Kinematics Quiz 1.A bicycle travels with a 4.5m/s velocity for 10 minutes. How far does it travel? 2.Rearrange the following equation d = ½ a t 2 + v i.

Bell Ringer: Define Displacement. Define Velocity. Define Speed.

1. Mrs. Morrison will give you the warm up.

Mechanics 1 : Kinematics

12.10 Relative-Motion Analysis of Two Particles Using Translating Axes

Chapter 9 Section 3: Acceleration

The Kinematics Equations (1D Equations of Motion)

Today I will differentiate between distance and displacement

Section 5.2 Systems of Linear Equations in Three Variables

Take out your homework from Friday (only front should be completed)

Motion Unit Miss McDonald Science 8

Free Fall and Inclined Plane

Warm-Up Complementary or Supplementary? B

Distance & Acceleration Kinematic Equations

Motion in One Dimension

The Kinematics Equations

KINEMATIC EQUATIONS VARIABLES

Introduction to MSS Swift Class Notebook.

Distributive Property

Meet & Seat Share your social profile

Graphing Skills for 2.1 Assessments

Projectile Motion.

Under the document camera Reflection: Free thought!

One Dimensional Kinematics Constant Acceleration:

Activator What does Newton’s first law of motion say? Give an example of this. What is another name for this law?

Speed-Time Graphs for Acceleration

King Fahd University of Petroleum & Minerals

Presentation transcript:

Science Starter!

Example A jumbo jet taxiing down the runway received word that it must return to the gate to pick up an important passenger who was late to his connecting flight. The jet is traveling at 45.0 m/s when the pilot receives the message. What is the acceleration of the plane if it takes the pilot 5.00s to bring the plan to a halt?

Text Examples – pages 81 and 82

# 80

# 81

# 88

1.With a partner or small group, complete the following problems from the textbook: Page 861, #s 3, 5, 8, 15*, 17* * These problems have two sections of motion. You will need to analyze each type of motion separately!

Exit Ticket 1.Log onto Socrative and join “PUORROPHYSICS”. 2.Complete “Introduction to Kinematics Equations” INDEPENDENTLY