Projectile Lab 9/30/13. Objective: To determine effect on projectiles if we include air resistance.

Slides:

Advertisements

Similar presentations

Linear Motion Chapters 2 and 3.

Advertisements

Motion and Force. Motion and Force Chapter Three: Motion 3.1 Position and Velocity 3.2 Graphs of Motion 3.3 Acceleration.

Paper Airplane Lab Experiment

Graphing. Data Tables Time(seconds)Distance(meters) Straight lines drawn with a ruler Independent Variable Dependent Variable Units.

Lab Order [Title – name and period] Objective: Pre Lab: Materials: Procedures: Data Table: Calculations: Graph: Conclusion:

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

Motion Measuring Motion Speed – Average Speed = distance covered / time taken v = d/t metric unit of speed: m/s English unit of speed: ft/s –Constant.

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.

IPC Notes: Graphing.

Section 5: Graphs in Science

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.

Graphing. The Important Elements of a Graph  Horizontal Axis (X-Axis)  The Independent Variable. A change in this variable affects the y variable. 

Graphs in Science You Can Do It!!!.

Bell Starter (Day 6 T 9/7 / W9/8) Turn in WB 8—”Force Practice” IN: ON NOTE CARD (name on back): copy and answer (use GUESS): copy and answer (use GUESS):

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

+ C: 17 Sept Homework: Background info paragraphs Objective: SWBAT test a hypothesis by collecting, organizing and analyzing data. Do now: Rearrange.

The Properties of Pennies. Science Labs Begin with a Question Do all groups of pennies have the same physical properties?

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

Projectile Motion I 9/30/13. Bellwork What is free fall? The motion of an object under the influence of the gravitational force only (no air resistance)

Work on an Incline Lab (name and period).

6 th grade scientific Inquiry Lesson 5 1. How do scientists investigate the natural world?  What is scientific Inquiry?  How are experiments designed.

Projectile motion can be described by the horizontal and vertical components of motion.

Do Now Friday, August 29, 2014 Do Now Friday, August 29, 2014 Please read over your lab handout and begin filling in the blanks in the opening paragraphs.

Warm Up  1. Find the range of a 4 kg projectile launched at a 45 degree angle with an initial velocity of 7 m/s.  2. Define Force.

Imam Mohammed bin Saud University Science Collage

Coefficient of Friction Pre-lab Purpose –Determine the coefficient of static friction. –Determine the coefficient of sliding friction. Materials –Force.

Lab 9: Simple Harmonic Motion, Mass-Spring Only 3 more to go!! The force due to a spring is, F = -kx, where k is the spring constant and x is the displacement.

Graph: a visual display of information or data

Bellwork (2/26) What do voltage sources do in a circuit? They do work on charges that is transferred into electric potential energy. Aside: High voltages.

[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.

AP Physics Monday Standards: 2a1,2,3 add, subtract, and resolve displacement and velocity vectors Objective: SWBAT apply basic mathematical operations.

Chapter One, Section 5: Graphs in Science

Chapter 2.2 Objectives and Vocabulary acceleration deceleration Newton's second law Define and calculate acceleration. Explain the relationship between.

Graphs of Motion Physics Ms. Allison. General Graphing Rules Title Label x and y axis with units - Dependent variable is on the y-axis; independent is.

Newton’s Second Law Pre-Lab

Components of and Experiments Independent Variable: The one factor that a scientist purposely changes during an experiment Dependent Variable: The resulting.

Lesson 5: Interpreting Line Graphs

ICP TCHS “Motion”. Students who demonstrate understanding can: HS- PS2-1. Analyze data to support the claim that Newton’s second law of motion describes.

Bellwork (4/14) What are electromagnetic waves? Waves that consists of oscillating electric and magnetic fields.

 Given a right triangle with acute angle θ: θ.

Communicating with Graphs  A visual display of information of data.

110 Newton’s Second Writing Newton’s Second Writing10911/21/2014 Starter: Quiz 11/21/2014 Practice/Application/Connection/Exit: Write on opposite page.

By- MacKenzie Kelley Physics. Objectives: 1. Students will apply physical concepts of vectors, gravity, velocity, times, and position to projectiles in.

Chemistry Lab Report & Graphing Basics. Formatting Your Paper  Typed  Double spaced  12-pt Times New Roman font  Each section should be titled  Name.

Projectile Motion 10/16/12 Yes, There are Notes… After Bellwork.

Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Human Dynamics Cart – Part II Lab Requirements Grade Lab Design_____/7 Investigation Question Independent/Dependent & 2 Controlled Variables Hypothesis.

How Does the Conentration of a Solution Affect Osmosis? (Potato Lab)

Physics “Motion in One Dimension”. Displacement and Velocity u motion - a constant change in position u distance - the result of motion in any direction.

Scientific Method. I. Title: Name of the activity II. Purpose or Problem: To state what you plan to do in the activity, sometimes identifying your independent.

SCIENCE SKILLS. Magic Grow® Capsule Observations To make a Data Table: Observations of Sponge Animal Capsules Label the type of observation Give your.

Acceleration Objectives –Make simple measurements of distance and time –Learn graphing skills and understand graphical relationships –Understand the meaning.

1 Title Slide Problem (type your Question) Group members Picture to illustrate friction- no clipart Cite your source.

AP Transpiration Lab Write up requirements Title your Lab: AP Lab Investigation #11 - Transpiration Write Down the guiding question (top of page S135)

3,2,1 Blast Off! Rocket Lab.

LABORATORY NOTEBOOK.

Paper Airplane Experiment

Investigation 3.1: Law of Inertia

Today I will: Define projectile

Projectile Motion.

Gravitational & Rotational Forces

Assessment Questions Which of these expresses a vector quantity? 10 kg

BELLWORK 1/04/17 What is a projectile?.

Paper Airplane Lab Experiment

Q2: Do the following problem from your textbook. Be prepared to share your answers. Page 55 problem s 1-6.

Newton’s Second Law Pre-Lab

5.1 – Rate of Change Textbook pg. 294 Objective:

Muscle Size vs. Muscle Strength

Presentation transcript:

Projectile Lab 9/30/13

Objective: To determine effect on projectiles if we include air resistance

Pre-Lab: (answer in complete sentences) 1.What angle do you think will launch an object the furthest? 2.How much of a roll do you think air resistance has on a fast moving object? 3.What do you think will happen to the range of an object as you increase the angle? 4.What do you think will happen to the hang time of an object as you increase the angle?

Procedures: 1.Using the PhET computer simulation, launch an object at 45 m/s at a 5° angle without air resistance 2.Record the range and hang time 3.Increase the angle by 5° and repeat step 1 until you get to 85° 4.Repeat steps 1-3 but add air resistance

Data Table: Projectile Angles Angle (°)Range-No Air (m) Time-No Air (s) Range-With Air (m) Time-With Air (s)

Projectile Lab (day 2) 10/1/13

Data Table: Projectile Angles (part 1) Settings: velocity = 45.0 m/s mass = 70.0 kg diameter (size) = 1.0 m

Pre-Lab: Part 2 and 3 Including air resistance: What do you think will happen to the range of an object as you increase the mass? What do you think will happen to the range of an object as you increase the size?

Data Table: Projectile Mass (part 2) Settings: angle = 45.0° velocity = 45.0 m/s diameter (size) = 1.00 m Mass (kg)Range-With Air (m)Time-With Air (s)

Data Table: Projectile Size (part 3) Settings: angle = 45.0° velocity = 45.0 m/s mass = 70.0 kg Diameter / Size (m)Range-With Air (m)Time-With Air (s)

Graphs: (You will have two graphs total.) Use the whole graph with an appropriate scale Include titles and units Graph 1: Make a graph with angle on the x-axis and range on the y-axis. Graph 2: Make a graph with angle on the x-axis and time on the y-axis. *** Plot the data with and without air resistance on the same graph ***

Identify ALL variables in the lab as independent, dependent or controlled for each part 1, 2, & 3 Using your data from the tables explain what happen to the object if we include air resistance Explain your graphs. –What are the shapes and slopes of the graphs? –What are the trends? –Compare your graphs to the ones on pages 35 and 37 in the textbook How do the factors effect an object’s motion if we include air resistance? (i.e. If you increase one quantity what happens to the other quantity?) What can we do to objects to reduce the effect of air resistance? Conclusion: (10 sentence min. in paragraph form)

Bellwork (10/1/13) What is air resistance? A force of friction that acts on an object moving through the air

Announcements Grades are up to date except for the Linear Motion Tests Any absent work needs to be made up by Friday 10/4/13 for the progress report Before school 7:00-8:00 am; Conference periods (Wed. and Thurs.); also Thursday after school