Presentation is loading. Please wait.

Presentation is loading. Please wait.

[Title, period and name] 10/3/13. Objectives  Objectives:  Part 1: Learn how to use a photogate timer and use it to determine the velocity of an object.

Published byAubrie Bruce Modified over 8 years ago

Similar presentations

Presentation on theme: "[Title, period and name] 10/3/13. Objectives  Objectives:  Part 1: Learn how to use a photogate timer and use it to determine the velocity of an object."— Presentation transcript:

1 [Title, period and name] 10/3/13

2 Objectives  Objectives:  Part 1: Learn how to use a photogate timer and use it to determine the velocity of an object  Part 2: To predict where a steel ball bearing will land on the ground

3 Materials  Materials: [List the lab equipment needed]  Photogate timer and gate …………

4 Procedures: (Part 2)  [diagram]

5

6 Procedures: (Part 2) 1.Find the velocity of a steel ball from 1.00 m up the ramp (Part 1) 2.Measure the height of the table to 4 sig. figs. 3.Find the time that the steel ball will be in the air for 4.Use time from step #3 to calculate where the steel ball will land

7 Data Tables

8 Data Table: Finding V x Distance (m) Trial 1 (s) Trial 2 (s) Trial 3 (s) Trial 4 (s) Trial 5 (s) Time Ave (s) 0.400 0.500 0.600 0.700 0.800

9 Data: Calculated Prediction Diameter of ball: 2.540 cm Height of Table: ____ Target distances: a) ___ b) ___ c) ___ for: d r = 1.000 m trials 1) ___ 2) ___ 3) ___ 4) ___ 5) ___

10 Calculations: (Part 2) Make sure you use the correct UNITS!!!  Calc. #1: [show work] average time (t photo )  Calc. #2: [T-Chart] velocity (v ball = v x )  Calc. #3: [T-Chart] time (t air ) [projectile y-component]  Calc. #4: [T-Chart] horizontal distance (d x ) [projectile x-component] This is your predicted distance

11 Testing the Prediction  Place and tape the target on the floor with the “Target Line” at the distance that your prediction calculation.

12 Order of the lab Title: Objectives: Materials: Procedures: (Part 2 w/ diagram) Data Table: (For Part 1) Data: (For Part 2) Part 2 Calculations: Part 1 Calculations: Conclusion:

13 Part 2 Calculations: (T-Charts) Calc. #1: (show work) average time (t photo ) Calc. #2: velocity (v ball = v x ) Calc. #3: time (t air ) Calc. #4: horizontal distance (d x ) Error Analysis: (3 total - show work) Calc. #5: vertical velocity (v y ) Calc. #6: resultant velocity (v r )

14 Error Analysis  Measure distances from target (3 total)  Calculation the % error  Show your work  Calc. #5: (T-Chart) vertical velocity (v y )  Calc. #6: (T-Chart) resultant velocity (v r ) (target distance) % error =  × 100 (predicted distance)

15 Part 2: Calculations Calc. #1: (show work) average time (t photo ) Calc. #2: horizontal velocity (v ball = v x ) Calc. #3: time (t air ) Calc. #4: horizontal distance (d x ) Error Analysis: (3 total - show work) Calc. #5: vertical velocity (v y ) Calc. #6: resultant velocity (v r ) Part 1:Calculations (5 total T-Charts) Calc.: horizontal velocity (v ball = v x )

16 Calculations: (Part 1) For each distance:  Calculate the velocity of the ball in meters per second (m/s) using the diameter of the ball to be 2.540 cm. (5 T-Charts Total)

17 Conclusion (paragraph form)  Explain the process of finding the velocity of the ball bearing and how you predicted where the ball bearing would land.  Identify ALL variables in the lab as independent, dependent or controlled  How many sig. figs. does each variable have?  How much of a role do you think air resistance and friction had and how would it affect your predicted horizontal distance to the actual distance?  How far off was your prediction in terms of distance and percent error?  What may have caused the ball to be off target? (give at least 3 reasons)

18 Order of the lab Title: Objectives: Materials: Procedures: (Part 2 w/ diagram) Data Table: (For Part 1) Data: (For Part 2) Part 2 Calculations: Part 1 Calculations: Conclusion:

Download ppt "[Title, period and name] 10/3/13. Objectives  Objectives:  Part 1: Learn how to use a photogate timer and use it to determine the velocity of an object."

Similar presentations

AP Physics: Mechanics 2D Motion

AP Physics: Mechanics 2D Motion
Car Crash Lab.

Car Crash Lab.
Displaying data and calculations  How many trials have been performed?  Were there enough to satisfy the IB Internal Assessment criteria? FYI: IB wants.

Displaying data and calculations  How many trials have been performed?  Were there enough to satisfy the IB Internal Assessment criteria? FYI: IB wants.
Motion in Two Dimensions

Motion in Two Dimensions
2D Motion Principles of Physics. CAR Av = 2 m/sCAR Bv = 0 Both cars are the same distance above the ground, but Car A is traveling at 2 m/s and Car B.

2D Motion Principles of Physics. CAR Av = 2 m/sCAR Bv = 0 Both cars are the same distance above the ground, but Car A is traveling at 2 m/s and Car B.
CHAPTER 3 PROJECTILE MOTION. North South EastWest positive x positive y negative x negative y VECTORS.

CHAPTER 3 PROJECTILE MOTION. North South EastWest positive x positive y negative x negative y VECTORS.
Projectile Launcher Mini Project 10/22/13. Bellwork If you are only given time (t) and range (d x ) how can you find v y ?

Projectile Launcher Mini Project 10/22/13. Bellwork If you are only given time (t) and range (d x ) how can you find v y ?
Lab Order [Title – name and period] Objective: Pre Lab: Materials: Procedures: Data Table: Calculations: Graph: Conclusion:

Lab Order [Title – name and period] Objective: Pre Lab: Materials: Procedures: Data Table: Calculations: Graph: Conclusion:
a) The kinetic energy of the car. b) The distance it takes to stop.

a) The kinetic energy of the car. b) The distance it takes to stop.
Unit 04 “Vertical Motion”

Unit 04 “Vertical Motion”
This Week’s Lab 11/13/13 – 11/15/13. Title [Title – you need to come up with one] Your name and period.

This Week’s Lab 11/13/13 – 11/15/13. Title [Title – you need to come up with one] Your name and period.
Projectile Motion I 11/7/14. Throwing a ball in the air On the way up: At the top of the throw: On the way down: velocity decreases acceleration stays.

Projectile Motion I 11/7/14. Throwing a ball in the air On the way up: At the top of the throw: On the way down: velocity decreases acceleration stays.
Roller Coaster Lab.

Roller Coaster Lab.
Acceleration Lab The purpose of this lab was to determine the relationship between distance, time, and velocity of an object that is accelerating uniformly.

Acceleration Lab The purpose of this lab was to determine the relationship between distance, time, and velocity of an object that is accelerating uniformly.
BY: Jorge Quesada Research Elasticity Friction Air Resistance.

BY: Jorge Quesada Research Elasticity Friction Air Resistance.
Projectile Review Questions

Projectile Review Questions
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.
Projectile Motion Review

Projectile Motion Review
SACE Stage 2 Physics Motion in 2 Dimensions.

SACE Stage 2 Physics Motion in 2 Dimensions.

Similar presentations

Ads by Google