Presentation is loading. Please wait.

Presentation is loading. Please wait.

Free Fall Graphical Method Plot graphs of distance vs time for both balls. It is most important to choose a suitable starting time which is common to both.

Published byAlvin Patterson Modified over 8 years ago

Similar presentations

Presentation on theme: "Free Fall Graphical Method Plot graphs of distance vs time for both balls. It is most important to choose a suitable starting time which is common to both."— Presentation transcript:

1 Free Fall Graphical Method Plot graphs of distance vs time for both balls. It is most important to choose a suitable starting time which is common to both balls. How then would you find the distance between the two balls from the two graphs? Is it consistent with your previous prediction? Algebraic method At some time t during the fall, how would you express the distance traveled by the first ball as a function of time? How would you express the distance traveled by the second balls as a function of time, assuming that it was released at moment Δt after the first one? How would you express the difference in distance between the balls as a function of time? Be careful to define a starting time common to both balls. Is it consistent with your previous prediction? Motion Diagram method Draw motion diagrams of the two falling objects. Place the motion diagrams side by side and pretend that the second ball is released exactly one time step unit after the first. Is it consistent with your previous prediction? http://paer.rutgers.edu/pt3/experiment.php?topicid=2&exptid=18

2 Free Fall Graphical Method Graphs of distance versus time for both balls are in blue Distance between the balls is in red x, m t, s 0.51.01.52.02.5 0 1 2 3 4 5 6 Ball 1 Ball 2

3 Free Fall Motion Diagram method Draw motion diagrams of the two falling objects. Place the motion diagrams side by side and pretend that the second ball is released exactly one time step unit after the first. Is it consistent with your previous prediction? t=0 t=1 t=3 t=4 t=5 t=2 t=6 Ball 1Ball 2 t=0

4 Free Fall Again t=0 t=2 t=3 t=4 t=1 t=5 0 X t, s v 9.8m/s 2 t, s x v = gt x = ½ gt 2 a = g H

5 t=0 t=2 t=3 t=4 t=1 t=5 0 X t, s v0v0 9.8m/s 2 t, s x v = v 0 – gt x = v 0 t – ½ gt 2 a = g H V0V0

6 Two Dimensions Constant Velocity V water V boat V water x y

7 Two Dimensions Constant Velocity + Constant Acceleration

8 Projectile Constant Velocity + Constant Acceleration x y ViVi V ix V iy

9 Homework (due Monday) Problems Section 2.6 Freely Falling objects #45, 59, 60, 69 Section 3.4 Motion in 2-D # 23, 42

10 Quiz 1. An elevator moves from the basement to the tenth floor of a building. The mass of the elevator is 1000 kg and it moves as shown in the velocity-time graph below. How far does it move during the first three seconds of motion? 2. The following represents an acceleration graph for an object during a 5 s time interval. Sketch the graph of velocity versus time to represent the object’s motion during the same time interval?

Download ppt "Free Fall Graphical Method Plot graphs of distance vs time for both balls. It is most important to choose a suitable starting time which is common to both."

Similar presentations

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

The four kinematic equations which describe an object's motion are:
Chap 3 :Kinematics in 2D, 3D and Projectile Motion HW4: Chap.3:Pb.14,Pb.57, Pb.87 Chap 4:Pb.3, Pb.4, Pb.12, Pb.27, Pb. 37 Due Friday 26.

Chap 3 :Kinematics in 2D, 3D and Projectile Motion HW4: Chap.3:Pb.14,Pb.57, Pb.87 Chap 4:Pb.3, Pb.4, Pb.12, Pb.27, Pb. 37 Due Friday 26.
CBA #1 Review 2013-2014 Graphing Motion 1-D Kinematics Projectile Motion Circular Motion Gravity Graphing Motion 1-D Kinematics Projectile Motion Circular.

CBA #1 Review Graphing Motion 1-D Kinematics Projectile Motion Circular Motion Gravity Graphing Motion 1-D Kinematics Projectile Motion Circular.
Aim: How can we approach projectile problems?

Aim: How can we approach projectile problems?
Unit 4 Class Notes Accelerated Physics Projectile Motion Days 1 thru 3.

Unit 4 Class Notes Accelerated Physics Projectile Motion Days 1 thru 3.
T v vivi Ex. An object moves in ________________ with an ____________________ and an ____________________. (When graphing v vs. t, the area = _____________.)

T v vivi Ex. An object moves in ________________ with an ____________________ and an ____________________. (When graphing v vs. t, the area = _____________.)
Chapter 4: Motion with a Changing Velocity

Chapter 4: Motion with a Changing Velocity
Chapter 2 Preview Objectives Changes in Velocity

Chapter 2 Preview Objectives Changes in Velocity
Motion Graphing Position vs. Time Graphs

Motion Graphing Position vs. Time Graphs
Chapter 2 Preview Objectives One Dimensional Motion Displacement

Chapter 2 Preview Objectives One Dimensional Motion Displacement
Motion in One DimensionSection 2 What do you think? Which of the following cars is accelerating? –A car shortly after a stoplight turns green –A car approaching.

Motion in One DimensionSection 2 What do you think? Which of the following cars is accelerating? –A car shortly after a stoplight turns green –A car approaching.
Chapter 2 Kinematics in One Dimension. Mechanics: Study of motion in relation to force and energy, ie, the effects of force and energy on the motion of.

Chapter 2 Kinematics in One Dimension. Mechanics: Study of motion in relation to force and energy, ie, the effects of force and energy on the motion of.
The four kinematic equations which describe an object's motion are:

The four kinematic equations which describe an object's motion are:
A Mathematical Model of Motion

A Mathematical Model of Motion
Chapter 2 Table of Contents Section 1 Displacement and Velocity

Chapter 2 Table of Contents Section 1 Displacement and Velocity
Motion in One Dimension

Motion in One Dimension
IF WE MEASURE DISTANCE AND TIME, WE GET:

IF WE MEASURE DISTANCE AND TIME, WE GET:
CBA #1 Review Graphing Motion 1-D Kinematics

CBA #1 Review Graphing Motion 1-D Kinematics
Acceleration 1D motion with Constant Acceleration Free Fall Lecture 04 (Chap. 2, Sec. 6-10 ) General Physics (PHYS101) Sections 30 and 33 are canceled.

Acceleration 1D motion with Constant Acceleration Free Fall Lecture 04 (Chap. 2, Sec ) General Physics (PHYS101) Sections 30 and 33 are canceled.
Section 3 Falling ObjectsFalling Objects Section 3 Falling Objects Chapter 2.

Section 3 Falling ObjectsFalling Objects Section 3 Falling Objects Chapter 2.

Similar presentations

Ads by Google