Unit 2 (Motion & Forces), Day 2 Acceleration. Agenda  Turn in Homework (0 min)  Catalyst (5 min)  Homework Explanation (5 min)  Activity (20 min)

Slides:

Advertisements

Similar presentations

Explaining motion P4 Questions/Answers. Question 1 What is the name used to describe a pair of forces?

Advertisements

Newton ’ s Laws of Motion I. Law of Inertia II. F=ma III. Action-Reaction.

Do Now If you are sitting still in your seat on a bus that is traveling 100 km/h on a highway, is your body at rest or in motion? Explain your answer.

PHYSICAL SCIENCE MOTION

Journal #12 / If the trend continues, where would the object be at 10 seconds?

Warm-Up Write down everything you know about force. Things you may want to include: Definition Formula SI Units Examples.

1 Basic Differentiation Rules and Rates of Change Section 2.2.

Chapter 2 Motion in One Dimension

Show me your calculator.

Chapter 2 Motion in One Dimension (Kinematics). 2.1 Displacement and Velocity Distance is a measure of the total motion of an object (how far it has traveled)

Welcome to Class What are some ways that objects move?

Acceleration 2.2 pp Mr. Richter. Agenda  Warm-Up  Introduction to Acceleration  Notes:  What is Acceleration?  Calculating Acceleration 

Bell Ringer  Tell me the 4 types of friction. (They were on the foldable!)  What is a force?  Give an example of a force.  Is gravity a.

Speed, Distance, & Time Practice

Unit 2 (Motion & Forces), Day 1

Describing Motion.

Acceleration Pg. 9 This lesson defines acceleration, its signs and its units, and provides conceptual, graphical, and quantitative examples. Students use.

Motion, Speed & Acceleration Review

 Acceleration is a change in velocity by  Changing speed: ▪ Starting ▪ Stopping ▪ Speeding up ▪ Slowing down  Or changing direction.

GET READY TO TAKE NOTES. Come on people, this is not rocket science Thursday, October 01, 2015.

Motion Change in position against some stationary background (frame of reference).

Unit 01 “Forces and the Laws of Motion” Introduction to Forces

Calendar Mon., 12/8 Topic: Velocity-Time Graphs Homework: Finish any incomplete work between pg. 95 & 103 To Do Pick up 2 papers from the Pick Up table.

Unit 2, Day 19 Review. Review Activities  Free Body Diagrams (Notes)  Class Work  Whiteboard Review  Break  Whiteboard Review.

Motion in 1D. Forces  Remember that an imbalance in forces results in an acceleration  If all forces are balanced we get a constant velocity  Because.

ACCELERATION Motion is change of position

Acceleration Physics 1 Dimensional Motion Chapter 2 Section 2 – pages

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

Unit 2, Day 17. Agenda  Turn in Homework  Announcements  Catalyst  Washer Activity  Newton’s 1 st Law  Trust Fall Activity  Newton’s 2 nd Law 

OUTCOMESASSESSMENT CRITERIA  After working through this unit, you should be able to:  Show the understanding of Newton's law.  Solve all the problems.

Physical Science Acceleration. Objectives: Describe the concept of acceleration as a change in velocity Explain whey circular motion is continuous acceleration.

Do Now Describe your position in the classroom using a reference point and a set of reference directions. Record your response in your science journal.

Accelerated Motion. Changing motion You can feel the difference between uniform and nonuniform motion When motion changes, you feel a push or pull (a.

CENTRIPETAL FORCE Centripetal Force is the force required to change the direction of a moving object. Newton’s 1 st Law version 2.0: An object at rest.

Unit Two: Dynamics Section 2: Newton’s First Law of Inertia.

Newton’s Laws of Motion I. Law of Inertia II. F=ma III. Action-Reaction.

Introduction to Newton’s Laws

Chapter 10 Motion Notes. Definition of position An object’s location.

Aim: How can we solve problems dealing with kinetic energy?

Proportionality between the velocity V and radius r

Notes on Motion IV Acceleration a What do you think of when someone says acceleration? If you think speeding up – then you are almost completely correct!!!!

Acceleration The rate at which velocity changes. Acceleration Acceleration can be described as changes in speed, changes in direction, or changes in both.

Chapter 2: Motion Unit 1: Energy and Motion Table of Contents : Describing Motion 2.2: AccelerationAcceleration.

Centripetal Force. Equations: Academic Vocabulary:  Centripetal force  Centripetal acceleration  Circular motion  Tangential velocity  Inverse square.

VELOCITY & ACCELERATION VELOCITY *Describes both the speed & direction of an object.

Section 2: Newton’s First Law of Inertia

Unit 4 FORCES AND MOTION. Objective  Understand how speed, velocity, and acceleration relate to motion of an object.  Analyze distance-time graphs and.

Accelerated Motion. is changing either the speed or direction, or both, of motion. Acceleration is the rate of change of velocity, in other words, how.

November 12 th,2015 Materials: AGENDA  Notebook  Pencil  Folder  Packet Agenda:  Agenda  Bell work  Brain pop  Vocab  Chapter 1.1 Objective: Today.

S8P3. Students will investigate relationship between force, mass and the motion of objects.

I. Inertia II. F=ma III. Equal and Opposite Forces.

Speeding Up and Slowing Down? Acceleration.

Centripetal Acceleration The force on required to make an object move in a circle is always directed towards the centre of the circle, so the object must.

Chapter 11: Motion Section 11.3 Acceleration.

CN – Kinematic Graphs What is kinematics? 3 types of Kinematic Graphs.

Chapter 2 Motion in ONE dimension. Displacement This chapter we are only doing to study motion in one direction. This chapter we are only doing to study.

IPage 17 of ISN I can annotate a word problem and accurately calculate acceleration.

Acceleration Pg. 9 in NB This lesson defines acceleration, its signs and its units, and provides conceptual, graphical, and quantitative examples. Students.

Section 1: Describing and measuring Motion

Agenda for 4/20/15 Acceleration Notes

What is Motion?.

Newton / 1st Law of Motion

Ch. 5 slides Forces.ppt.

Newton’s Laws of Motion

Reviewing Main Ideas Describing Motion

Physics 1 – Oct 27, 2017 Get out Forces p1-2 for Hmk check

Acceleration Unit 1: Motion.

rate at which velocity changes

Velocity vs Time Graphs – Notebooks

Describing Motion.

Presentation transcript:

Unit 2 (Motion & Forces), Day 2 Acceleration

Agenda  Turn in Homework (0 min)  Catalyst (5 min)  Homework Explanation (5 min)  Activity (20 min)  Notes (10 min)

Notes Packet  Write your name at the top of the packet  DO NOT LOSE  Perhaps staple into notebook if necessary  Remember, also glue/staple/tape PINK EQUATION SHEET in

Student Entry  Turn in “ Speed & Velocity” Homework!  CATALYST:  Imagine you are on a bus. Describe how your body moves when:  The bus is moving at a constant speed  The bus speeds up quickly  The bus slows down quickly

Homework Explanation 11 ft 19 ft 23 ft 31 ft 5 s 9 s 10 s 15 s

Accelerometer Activity  Write your name on the bottom of the index card NAME: Mrs. Larkin

NAME: Accelerometer Activity  Tie string to center point of the accelerometer. Mrs. Larkin

NAME: Accelerometer Activity  Tie a washer to the bottom of the string. Mrs. Larkin

Accelerometer Activity  10 minutes  Stay in courtyard, be efficient  One chair per group, push each group member  Write observations down (see next slide)  Warnings  Don’t mess around  Don’t push chairs of sidewalk cracks  Do not push/stop hard enough to cause a person to fall out

Accelerometer Activity  Observations:  Speeding Up Quickly ______________________________________________ ______________________________________________ ______________________________________________  Constant Velocity ______________________________________________ ______________________________________________ ______________________________________________  Slowing Down Quickly ______________________________________________ ______________________________________________ ______________________________________________

Comparison: Catalyst & Accelerometer  THINK  Finish your accelerometer activity observations  PAIR  Compare “Catalyst” responses with “Accelerometer” observations  Speeding Up: Body? Washer?  Constant Speed: Body? Washer?  Slowing Down: Body? Washer?  SHARE  3 people called on randomly to respond to questions

Figuring Out an Equation  Acceleration Unit Examples:  Meters per second squared   Feet per second squared   Kilometers per minute squared   What do the numerators have in common? __________  What do the denominators have in common? __________

Acceleration Notes  Acceleration Units: meters per second squared

Acceleration Notes  Acceleration (Vector): Rate that velocity is changing  Example #1: TimeVelocity 0 s0 m/s 1 s3 m/s 2 s6 m/s 3 s9 m/s First Differences THIS IS ___________________ ACCELERATION ( ______________ __________ )

Positive Acceleration Diagram  When acceleration was positive (speeding up), why did we fall backwards? STARTINGCHANGINGENDING

Acceleration Notes  Example #2 TimeVelocity 0 s7.5 m/s 1 s5.0 m/s 2 s2.5 m/s 3 s0.0 m/s First Differences THIS IS ___________________ ACCELERATION ( ______________ __________ )

Negative Acceleration Diagram  When acceleration was negative (slowing down), why did we fall forwards? STARTINGCHANGINGENDING

Acceleration Notes  Acceleration Equation:

Acceleration Notes  Calculate Acceleration  From 0s to 1s  From 1s to 3s TimeVelocity 0 s0 m/s 1 s3 m/s 2 s6 m/s 3 s9 m/s

Acceleration Notes  Calculate Acceleration  From 0s to 1s  From 1s to 3s TimeVelocity 0 s7.5 m/s 1 s5.0 m/s 2 s2.5 m/s 3 s0.0 m/s

Acceleration Notes  Constant Acceleration: Acceleration does not change as time goes on (in other words, first difference between equal time spans should ALWAYS be the same!)

Practice (EASY)  As a school bus slows to a stop, it slows from 9.00 m/s to 0.00 m/s in 5.00 seconds. What is its acceleration?  Circle what we are solving for above.  Fill out the GIVEN INFORMATION table. VariablesGiven? V0V0 V a t GIVEN INFORMATION

Practice (EASY  MEDIUM)  A skateboarder goes from a standstill to a speed of 6.7 m/s in 12 seconds. What is their acceleration?  Circle what we are solving for above.  Fill out the GIVEN INFORMATION table. VariablesGiven? V0V0 V a t GIVEN INFORMATION

Practice (EASY  MEDIUM)  A sprinter increases from 5.0 m/s to 7.5 m/s over a period of 1.25 seconds. What is their acceleration?  Circle what we are solving for above.  Fill out the GIVEN INFORMATION table. VariablesGiven? V0V0 V a t GIVEN INFORMATION

Homework  Check PowerSchool for Exam Grade