Graphing and Problem Solving Friday, August 29, 2014.

Slides:

Advertisements

Similar presentations

Chapter 2: Describing Motion in 1-D

Advertisements

Describing Motion.

GRAPHING MOTION Distance vs. Time.

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

Motion Motion Motion.

Force and Motion Standards

Motion A change in the position of an object

Practicing with Graphs

GRAVITY. Warm Up: 1.What are your ideas about gravity? ◦What is it? ◦What causes it? ◦What changes it? ◦How does it affect things? 2.What variables do.

Ch. 8.2 Acceleration and Force

Projectile motion and V f vertical velocity Tuesday, December 2, 2014.

Unit 1 Lesson 1 Motion and Speed

Motion  1 Position, Speed and Velocity  2 Graphs of Motion  3 Acceleration.

Unit 1 Lesson 1 Copyright © Houghton Mifflin Harcourt Publishing Company.

Graphing Checklist: Pick out independent & dependent variable Using as much of the page as possible darken axes Label axes with variable and units Pick.

Copyright © Houghton Mifflin Harcourt Publishing Company Unit 1 Lesson 1.

Ticker Tape and Definitions Station ……..……

Unit 5 Lesson 2 Motion and Speed

Shrinking Moon Explanation on next slide. Velocity Is a description of an object’s speed and direction. formula is the same as for speed Velocity=

Free-fall practice, Velocity-Time Graphs, and quiz Friday September 25, 2015.

9/30 Test Today over Graphing. Pick up formula chart, scantron, and Calculator assigned to your desk (see blue number on desk) Turn in Review to blue sorter.

As Mrs. Covert is taking role answer the five questions on the worksheet. You only have 5 minutes. This needs to be done individually. NO TALKING!!!!

Motion Graphs. Motion-Time Graph Describing motion is occasionally difficult to do with words Graphs can help simplify this description greatly – Position.

Bellringer Compare and explain in complete sentences what are velocity, speed and acceleration vs time.

MOTION GRAPHS CREATING AND INTERPRETING GRAPHS. WHAT DO WE KNOW On the paper provided, write down everything you know about graphs and graphing.

Graphical Analysis of Motion AP Physics B. Slope – A basic graph model A basic model for understanding graphs in physics is SLOPE. Using the model - Look.

Force and Motion December 7, 2013 Ms. Smith Mrs. Malone Ms. Cedillo DO NOW: Date: December 7, B Identify and describe the changes in position,

LUG and test review Monday, October 6, Monday, 10/6 Unit 3: Work and Forces  Pick up warm-up sheet from Physics bin  Write the question in the.

Graphing, scalars, vectors, problem solving. Graphing Instructions 1. Title your graph – Position vs Time graph 2. Label your Y-axis distance (m) 3. Label.

GRAPHING. DISTANCE VS TIME PARTS OF A GRAPH  Axes – Usually x and y  Label – Subtitles on each axis  Scale – Units represented on each axis  Title.

Graphing, scalars, vectors, problem solving Friday, August 28, 2015.

Motion and Speed Physics Chapter 1 Sections 1.1 and 1.2.

If the sum of all the forces acting on a moving object is zero, the object will (1) slow down and stop (2) change the direction of its motion (3) accelerate.

1) Speed: the rate at which an object moves or the rate of change of position It depends on distance and time.

Forces Wednesday, November 4, 2015 Wednesday, 11/4 Unit 4: Work and Forces  Pick up a warm-up sheet  Take out your homework from Monday (video notes)

3.2 Notes - Acceleration Part A. Objectives  Describe how acceleration, time and velocity are related.  Explain how positive and negative acceleration.

Motion Graphs Position vs. time. Vocabulary Position Where you are relative to the origin (reference point/observer) Distance The total length of how.

Forces and Motion 5.1 – Use measurement & time- distance graphs to represent the motion of an object in terms of its position, direction or speed.

Bellringer Compare and explain in complete sentences and using graphs what is velocity and acceleration vs time.

MOTION. Chapter Four: Motion  4.1 Position, Speed and Velocity  4.2 Graphs of Motion  4.3 Acceleration.

Motion Position, Speed and Velocity Graphs of Motion Acceleration.

If Alice walks forward on a bus 2 meters while the bus moves forward 10 meters, How far does Alice walk according to the passengers? Motion and Position.

Test Review Chapter 4 – Linear Motion. Question You’re solving a problem and you see a unit of km/hr. What variable is this giving you?

Starter Vocabulary Term What is distance? What is displacement? What is frame of reference? What is speed? What is velocity? What is acceleration? Definition.

Chapter 2: Describing Motion in 1-D. Frame of Reference Whether or not you are moving depends on your point-of-view. From inside the box car, the woman.

the BIG idea CHAPTER OUTLINE NEW CHAPTER Motion CHAPTER The motion of an object can be described and predicted. An object in motion changes position.

Science Skills Notes, Bowling Ball Activity

Science Skills.

Do Now: What does it mean for something to be a vector and scalar?

Unit II Physical Science

Speed vs. Velocity.

Graphing, scalars, vectors, problem solving

Monday, August 24 Today Complete AIMS post-test

Quiz---Draw the Force Diagram

Velocity-Time Graphs and Linear Motion Practice

Chapter 2 - Motion.

Acceleration Physics 1-D Motion.

Introduction to Mechanics 2.1 notes

Speed & Velocity Measuring Motion.

GRAPHING MOTION Distance vs. Time.

GRAPHING MOTION Distance vs. Time.

Plotting and Graphing Lesson and Lab

Ticker Tape and Definitions Station

**Put your x-t practice on your desk** Bell Work: Position Time Graphs

GRAPHING MOTION Distance vs. Time.

GRAPHING MOTION Distance vs. Time.

Silently begin working on your morning article.

Position, Speed and Velocity

Let’s do some cutting!!! G L U E G L U E.

Presentation transcript:

Graphing and Problem Solving Friday, August 29, 2014

Friday, 8/29 Unit1: Tools for Physics  If this is your first time to class come see me at the door and show me your schedule.  Pick up a sheet from the Physics bin  Complete the warm up sheet (you will have 3 minutes to complete).  Upcoming dates  ‘A’ day Unit 1 test - Wednesday, 9/3  ‘A’ day Unit 2 test – Wednesday, 9/17  Last day to turn in 1SW extra credit – Friday, 9/19

Sharing your experience Discuss your warm- up with a partner

Warm - up 1. Draw a graph below and title it Position time Graph, label the x-axis as time, and the y-axis as distance. Label the y-axis in 10 meter increments to 50 meters and the x- axis in 1 second intervals to 10 seconds. 2. We are going to roll a bowling ball and collect time data as the ball passes certain distances. Will the force applied to the ball influence the velocity of the bowling ball? Explain your answer.

Lab expectations  Stay on task  Students are working keep… your voice at a low conversation level.  Absolutely no horse play.

What you need  Sticky note  Timer  Something to write with  I need a volunteer

Graphing Instructions 1. Title your graph – Position vs Time graph 2. Label your Y-axis distance (m) 3. Label your X-axis time (s) 4. Time should be in.5 s increments up to 15 s 5. Distance should be in 1 meter increments up to Plot the point for the fast ball data (use a colored pencil). Draw a best fit line and label the line fast ball. 7. Plot the point for the slow ball data (use a different colored pencil). Draw a best fit line and label the line fast ball. 8. Plot the point for the reverse ball data (use a different colored pencil). Draw a best fit line and label the line fast ball.

On the back of your graph respond to the question below 1. How did the slope (steepness) of the lines compare to each other? 2. Describe the direction of the ball during each of the three rolls. 3. What role do you think force and mass played in this experiment?

On the back of your graph respond to the question below 1. How did the slope (steepness) of the lines compare to each other? Visually the fast bowl, then reverse bowl, then slow bowl. The slope of line tells how fast the object is moving. Steeper = greater velocity. 2. Describe the direction of the ball during each of the three rolls. Considering the zero meter mark was the point of reference…the fast and slow bowl were moving away from the reference point. The reverse bowl was moving towards the reference point. 3. What role do you think force and mass played in this experiment? When I applied a greater force the ball went faster. If the mass of the ball increased then I would need to apply a greater force to keep the velocity of the ball the same. Let’s go further….What is mass? Are mass and weight the same.

 Discussion  Mass is matter.  In order for mass to change the original object must be changed (chemical reaction, physical modification of its state).  Weight is a function of mass and the effect of gravity.  Weight can change based on the gravitational force.  Example: my mass on earth and the moon are the same but I weigh less on the moon than on the earth.

GUESS Method  Method for solving word problems  Given:  relevant information  clearly labeled symbol and units  Unknown:  Identify what the problem is asking you to solve for  clearly labeled with symbol  Equation:  Write it using only symbols  Substitution:  Substitute given information into your equation  Solve:  Solve algebraically for your unknown term

TermSymbol/VariableUnitsExample Stem of Question Distancedm 5 m How far…? Displacementdm 3 m north How far (and what direction) from start…? Speedvm/s 27 m/s How fast…? Velocity (speed w/direction) vm/s -43 m/s How fast and what direction…? (direction can be shown with + or -) Accelerationa m/s m/s 2 -What is the change in velocity? -What is the acceleration? Timets 7.3 s How long…? Initial speed or Initial velocity vivivivim/s How fast is the object moving at first? Final speed or Final velocity vfvfvfvfm/s How fast is the object moving at the end?

Applying GUESS to velocity Given distance and time solve for velocity.

Example: Sheldon from the ‘Bing Bang Theory’ runs 10 meters to the couch, to play video games, in 3 seconds. Calculate Sheldon’s velocity.

Make your own problem with an Elbow partner and solve it.

Test  Graphing analysis  Lab conclusions  Difference between speed and velocity  Slope  GUESS Method  Apply GUESS method  Difference between mass and weight.  Bowling Ball observations