Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics “Drag racing” (aka. 1D Motion MiniLab). Overview For this mini-lab, you will “race” toy cars You will measure components of its motion You will.

Published byBritton Baldwin Modified over 9 years ago

Similar presentations

Presentation on theme: "Physics “Drag racing” (aka. 1D Motion MiniLab). Overview For this mini-lab, you will “race” toy cars You will measure components of its motion You will."— Presentation transcript:

1 Physics “Drag racing” (aka. 1D Motion MiniLab)

2 Overview For this mini-lab, you will “race” toy cars You will measure components of its motion You will then use your measurements to create distance-time graph and a velocity time graph You will then calculate the instantaneous acceleration for every separate leg of the “race”

3 What you’ll need You will be in teams of 2-3 Each team will have a toy car and at least one meter stick Each team will need to use their iPad to record each trial You may want to use the stopwatch feature as well

4 Documentation You can turn in one paper per individual Each person will use a different toy car, so data will be different for each person

5 Sections Objective: To determine the deceleration caused by the friction between a toy car and another surface Hypothesis: N/A Experiment: Write all of the steps of your experiment in this section. REMEMBER, be as specific and clear as you can Data: A data table, 1-3 graphs, examples of each type of calculation that you performed Conclusion: Answer three questions

6 Suggestions It is suggested that you tape a small, skinny piece of paper to the meter stick at set intervals This will make it easier to see where key units are (say every 10 cm) Decide upon where your starting point will be and put the meterstick aside it The time that you are recording starts then the “nose” of the car crosses the starting line

7 Recording data You will need to do 3 trials For each trial, you will need to record the distance that the car travels every 1s If the car travels for less than 1 s, then record that fraction of a second (ie.2 s,.45 s, etc) Put all of your information in a data table

8 Data Table Trial #1Trial #2Trial #3 Standard Deviation of Distance Travelled Time Segment Distance Travelled Insantaneou s Velocity Instantaneou s Acceleration Time Segment Distance Travelled Insantaneou s Velocity Instantaneou s Acceleration Time Segment Distance Travelled Insantaneou s Velocity Instantaneou s Acceleration Average Velocity

9 Graphing Use the data table to make a distance-time graph for each trial You can make three separate graphs OR make one graph with all three lines on it (if you choose this option, label the lines or else color code them) You will then need to make a velocity-time graph for each trial You have the same option as with the distance-time graphs

10 Conclusion Answer the following questions: How precise where your time trials? Look at the profile of your graphs: How similar are they? Describe why you think they are similar or dissimilar. Compare your instantaneous accelerations for your last time segment with those of your group: How similar are they? Describe why you think they are similar or dissimilar. Choose one of your velocities (other than zero) from a time trial and compare it to the average velocity for that time trial: How similar are they? Describe why you think they are similar or dissimilar.

Download ppt "Physics “Drag racing” (aka. 1D Motion MiniLab). Overview For this mini-lab, you will “race” toy cars You will measure components of its motion You will."

Similar presentations

Car Crash Lab.

Car Crash Lab.
AP Physics B Summer Course 2012 2012 年 AP 物理 B 暑假班 M Sittig Ch 11: Kinematics.

AP Physics B Summer Course 年 AP 物理 B 暑假班 M Sittig Ch 11: Kinematics.
Table of Contents 2 Chapter 2 Motion.

Table of Contents 2 Chapter 2 Motion.
Vectors A runner ran 400 m around a track. What was her displacement? A runner ran 400 m around a track. What was her displacement? A. zeroB. 400 mC. 400.

Vectors A runner ran 400 m around a track. What was her displacement? A runner ran 400 m around a track. What was her displacement? A. zeroB. 400 mC. 400.
Distance and Displacement, Speed and Velocity, and Acceleration Physics Olympics Photo:

Distance and Displacement, Speed and Velocity, and Acceleration Physics Olympics Photo:
Chapter 1: Honors Science Stations Review Kawameeh Middle School 8 th Grade.

Chapter 1: Honors Science Stations Review Kawameeh Middle School 8 th Grade.
WHAT IS SPEED? Speed is how fast an object is moving relative to another object. A frame of reference is necessary to calculate speed. Speed depends on.

WHAT IS SPEED? Speed is how fast an object is moving relative to another object. A frame of reference is necessary to calculate speed. Speed depends on.
Motion Graphing Position vs. Time Graphs

Motion Graphing Position vs. Time Graphs
SPH3U Exam Review. 1. The slope of a position-time (i.e. displacement-time) graph is equal to the: A. acceleration B. distance travelled C. time interval.

SPH3U Exam Review. 1. The slope of a position-time (i.e. displacement-time) graph is equal to the: A. acceleration B. distance travelled C. time interval.
1_3 Velocity time graphs Find the area of these shapes. 03 September 2015 3 3 3 5 3 4 Find the gradient of these lines. 2 2 3 62 4 yxyx.

1_3 Velocity time graphs Find the area of these shapes. 03 September Find the gradient of these lines yxyx.
The graphs Part II…. The slope of a position vs time graph is? The slope of part 1? The slope of part 2? The velocity in interval 3? Velocity + 2 m/s.

The graphs Part II…. The slope of a position vs time graph is? The slope of part 1? The slope of part 2? The velocity in interval 3? Velocity + 2 m/s.
Table of Contents Chapter 9 Motion and Energy Chapter Preview

Table of Contents Chapter 9 Motion and Energy Chapter Preview
Speed, Velocity, Distance, and Acceleration Summative Assessment

Speed, Velocity, Distance, and Acceleration Summative Assessment
Motion in One Dimension Average Versus Instantaneous.

Motion in One Dimension Average Versus Instantaneous.
Notes from 8/29/13. T-Charts (cont.)  Check Units!  For given information (2), check that same quantities have the same unit (ex. time: s and min should.

Notes from 8/29/13. T-Charts (cont.)  Check Units!  For given information (2), check that same quantities have the same unit (ex. time: s and min should.
Physics Activity #4 9/30/14. Objective:  To measure the acceleration of gravity in the lab, by using two different methods.

Physics Activity #4 9/30/14. Objective:  To measure the acceleration of gravity in the lab, by using two different methods.
Chapter 1, Section 1 Describing and Measuring Motion

Chapter 1, Section 1 Describing and Measuring Motion
What is motion? Motion is the change in the position of an object. To describe the motion of an object we use terms like: Distance, displacement, speed,

What is motion? Motion is the change in the position of an object. To describe the motion of an object we use terms like: Distance, displacement, speed,
Gravity on a Roll Gravity Rules! And Gravity Always Wins.

Gravity on a Roll Gravity Rules! And Gravity Always Wins.
Motion Change in position against some stationary background (frame of reference).

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

Similar presentations

Ads by Google