Day Topic: Spark Timer Analysis & Reflection

Slides:

Advertisements

Similar presentations

The four kinematic equations which describe an object's motion are:

Advertisements

Kinematics: Describing Motion Sections 6.1, 6.3. Reminders Lab this week: LAB A3-FF: Free Fall Mallard-based reading quiz due prior to class on Thursday.

One Dimensional Motion

When Mr. Sgoutas drops two similar-sized objects that have different masses (thus different weights) from the same height, will they hit the ground at.

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.

Motion in One Dimension

Motion in One Dimension

Acceleration (a vector quantity) is defined as the rate of change of velocity. It has units of m/s 2 Acceleration can be positive, negative, or zero. An.

1 Chapter 2 Motion in One Dimension Kinematics Describes motion while ignoring the agents that caused the motion For now, will consider motion.

Motion in One Dimension

Chapter 2 Motion in One Dimension. Kinematics Describes motion while ignoring the agents that caused the motion For now, will consider motion in one dimension.

Physics 212 Lecture 4 Physics 212 Lecture 4 Agenda Assignment: 1.For Monday read Chapter 3 2.Homework Set 1 due Wednesday of next week)  One-Dimensional.

Chapter Acceleration Non-uniform motion – more complex.

Physics 521 Section 2.4 and Chapter 3.  Acceleration is the rate at which the velocity of an object changes.  When the velocity changes ( ) during some.

Teacher Page I. Scientific Inquiry, A. Processes of Scientific Inquiry Missouri science standards 1.4, 1.5, 1.6, 1.7, 1.8, 2.1, 2.7 7th grade science MAP.

Acceleration Due to Gravity EQ: How is the motion of an object moving vertically different from one moving horizontally? EQ: How is the motion of an object.

Free Fall Motion Notes Day 4.

Motion Revision Quiz questions. Round 1 1.Which of the following is a scalar measurement? displacement distance velocity.

Chapter 6 Forces In Motion

Chapter 3 Acceleration Lecture 1

Gravity The force of attraction between objects that is due to their masses.

Free Fall J. Frank Dobie H.S.. Free Fall Free-falling object falling falls only under the influence of gravity. Free-falling object is “in a state of.

Chapter 2 One-Dimensional Kinematics. Units of Chapter 2 Position, Distance, and Displacement Average Speed and Velocity Instantaneous Velocity Acceleration.

Science Starter! Review for Quiz 2!. After the Quiz…. A frustrated student drops a book out of a window that is 18 m above the ground. A curious student.

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

Distance and Displacement Speed and Velocity Acceleration.

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.

Graphing and Problem Solving Friday, August 29, 2014.

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.

Accelerated Motion Chapter 3. Accelerated Motion Develop descriptions of accelerated motions. Use graphs and equations to solve problems involving moving.

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

Science Starter! A frustrated student drops a book out of a window that is 18 m above the ground. A curious student below notices that it takes 1.92 s.

Free Fall - falling under the influence of gravity only (no air resistance) Purpose To determine if an object in free fall is moving with a uniformly.

Physics A First Course Forces and Motion Chapter 2.

Forces in Motion What Do You Think? How does the force of gravity affect falling objects?

9.2 – Calculating Acceleration The acceleration of an object depends on the change in velocity and the time required to change the velocity. When stopping.

Section 2.3 Gravity and Free Fall. Acceleration due to Gravity ► ► An object is in free fall if it is accelerating due to the force of gravity and no.

Physics Chapter 2 Notes. Chapter Mechanics  Study of the motion of objects Kinematics  Description of how objects move Dynamics  Force and why.

Gravity and Motion. Standards P.8.B.1 Students know the effects of balanced and unbalanced forces on an object’s motion. E/S P.8.B.3 Students know every.

LINEAR MOTION Advanced Higher Physics. Calculus Methods.

Chapter 2 Motion in One Dimension. Kinematics Describes motion while ignoring the agents that caused the motion For now, will consider motion in one dimension.

a = g = m/s/s a = g = -10 m/s2 2-3 Falling Objects

Skydiving from space!! What can potentially go wrong? Does his acceleration change?

Motion Graph Shapes.

Chapter 5 A Mathematical Model of Motion

12.1 Acceleration.

Warmup If dropped from the same height (discounting air resistance), which will hit the ground first: a bowling ball or a feather? Explain your answer.

Chapter 13 Preview Section 1 Gravity: A Force of Attraction

10/18/2010 TOPIC: Representing Motion

Free Fall Motion.

Gold: Important concept. Very likely to appear on an assessment.

Free Fall Acceleration

Motion in One Dimension

Acceleration Due to Gravity

Science starter: What graph would be best for this information?

9.2 Calculating Acceleration

9.2 Calculating Acceleration

The integral represents the area between the curve and the x-axis.

Mechanics Topic 2.1 Kinematics.

9.1 – Describing Acceleration

Projectile Motion: Launching Things into the Air

Velocity-Time Graphs for Acceleration

Foundations for Physics

Day UNIT 5 Free Fall and 2D Motion Topic: Free Fall

Presentation transcript:

Day 6 2-7-11 Topic: Spark Timer Analysis & Reflection Objective: I will analyze the data and graph created by the “Lab”. Science Starter: Which chunk of wood will hit the ground first. Explain why. Use the words acceleration, gravity, and mass in your explanation. 7 kg 5 kg 5 kg 3 kg

Monday's Agenda 1. Starter – Objects of differing masses will accelerate toward the ground at the same rate of acceleration due to gravity. (7 min) 2. QUICK review of analyzing graphs (2 min) 3. Analyze and reflect on what we observed during the spark timer lab (15 min) 4. Peer Presentation & Assessment of a partner's graph and written response.(20 min) 5. *Ongoing Assignment: CPO Text Questions

Recall: Interpreting a Graph Observe the curved XT graph and the corresponding VT graph below. Observe: 1. Slope of XT gives VELOCITY 2. Slope tangent lines are increasing. 3. Therefore, VELOCITY is increasing

Spark Timer Lab Reflection What 2 variables are represented by the axes of the graph? This graph represents the relationship between... What does the slope of an X-t graph tell us? The slope of an X-t graph... What does the slope of a V-t graph tell us? The slope of a V-t graph... What does the graph indicate about the velocity of the object you dropped? The graph indicates that...I know this because... What does the slope of this graph represent about the rate of acceleration of the object? The slope represents how the acceleration of the object...I know this because... What is responsible for the acceleration of an object in free fall?Acceleration of an object in free fall is due to...I know this because...I could prove this by...

Peer Presentation & Assessment Partner 1 (window side): Display your graph Read each question Read your response to each question Partner 2 (door side) Listen respectfully & carefully Ask 1 or 2 appropriate questions “How do you that... … ...” Complete the Assessment/Grading Rubric SWITCH ROLES

Spark Timer Lab Scoring Guide Instructor: Mr ________ PRESENT (0-3 pt) ACCURANCY (0- 3) PRESENTATION (0-3) TOTAL (1) Title Axis Interval Labels Scale Peer Teacher Peer Teacher Peer Teacher Peer Teacher

Read section 2.3 p.39-42 COPY the questions into your NOTEBOOK 1ST; Then respond in complete sentences. 1. Describe the motion of a freely falling object. Use the words speed, acceleration in your answer. 2. What is the difference between mass and weight? 3. If you drop a feather and a baseball in a place where there is no air (a vacuum), how will their motions compare? 4. Can an object have a speed of zero while it has an acceleration that is not zero? Explain. 5. An astronaut carries a rock from the moon to Earth. Is the rock’s mass the same on Earth as on the moon? Is its weight the same? Explain. 6. What is the direction of air resistance on a falling object?