Presentation is loading. Please wait.

Presentation is loading. Please wait.

PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Acceleration and graphs  derivatives  Constant acceleration  x vs t, v vs t, v vs x OUTLINE  More Constant.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Acceleration and graphs  derivatives  Constant acceleration  x vs t, v vs t, v vs x OUTLINE  More Constant."— Presentation transcript:

1 PH 201 Dr. Cecilia Vogel Lecture 4

2 REVIEW  Acceleration and graphs  derivatives  Constant acceleration  x vs t, v vs t, v vs x OUTLINE  More Constant acceleration  x vs t, v vs t, v vs x  1-D Projectiles, free fall  acceleration of gravity

3 Special Case: Constant Acceleration  If object’s acceleration has a constant value, a,  then its velocity changes at a constant rate:  And its position changes quadratically with time:

4 Example A little red wagon is rolling in the positive direction with an initial speed of 10.0 m/s. A child grabs the handle and pulls, giving it a constant acceleration of 5 m/s 2 opposite its initial motion. Let the time the child begins to pull be t=0, and take the position of the wagon at that time to be x=0. a)Where will the wagon be after 1.0 s of pulling? b)How far does it go before coming to a stop (for an instant)?

5 What if…?  Let’s find a generalization of that:  Where will object be when it’s velocity is v, given a known initial position, velocity, and constant acceleration ? simplify:

6 Special Case: Free Fall  Object moving with no acceleration except that of gravity. g=9.8 m/s 2

7 1-D Projectile Motion

8 Special Case: Dropped Object  Initial velocity is zero  How long will it take an object dropped from height h to hit the ground?  How fast will it be going when it hits?

9 Special Case: Dropped Object  How long will it take an object dropped from height h to hit the ground? Given v iy = 0 y i = h y= 0 find t

10 Special Case: Dropped Object  How fast will it be going when it hits? Given y i = h y=0 v iy =0 find v

11 Opposite of Dropped  Same equation applies to opbject thown up with speed vy, comes to a stop at height h

Download ppt "PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Acceleration and graphs  derivatives  Constant acceleration  x vs t, v vs t, v vs x OUTLINE  More Constant."

Similar presentations

8th Grade Investigation 7 Force and Motion

8th Grade Investigation 7 Force and Motion
Projectile Motion. What Is It? Two dimensional motion resulting from a vertical acceleration due to gravity and a uniform horizontal velocity.

Projectile Motion. What Is It? Two dimensional motion resulting from a vertical acceleration due to gravity and a uniform horizontal velocity.
1 UCT PHY1025F: Mechanics Physics 1025F Mechanics Dr. Steve Peterson KINEMATICS.

1 UCT PHY1025F: Mechanics Physics 1025F Mechanics Dr. Steve Peterson KINEMATICS.
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.
Projectile Motion Review Game

Projectile Motion Review Game
Today’s Topic Free Fall What is Free Fall? Free Fall is when an object moves downward (vertically) only as the result of gravity.

Today’s Topic Free Fall What is Free Fall? Free Fall is when an object moves downward (vertically) only as the result of gravity.
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.
Gravity & Free Fall.

Gravity & Free Fall.
 Neglecting air resistance, all objects fall at a rate of 9.8 m/s 2 due to gravity  Because objects fall in a downward direction, we’ll call their acceleration.

 Neglecting air resistance, all objects fall at a rate of 9.8 m/s 2 due to gravity  Because objects fall in a downward direction, we’ll call their acceleration.
Projectile Motion: Physics of Baseball September 22, 2010

Projectile Motion: Physics of Baseball September 22, 2010
PH 201 Dr. Cecilia Vogel Lecture 3. REVIEW  Motion in 1-D  instantaneous velocity and speed  acceleration OUTLINE  Graphs  Constant acceleration.

PH 201 Dr. Cecilia Vogel Lecture 3. REVIEW  Motion in 1-D  instantaneous velocity and speed  acceleration OUTLINE  Graphs  Constant acceleration.
PH 201 Dr. Cecilia Vogel Lecture 1. OUTLINE  Motion in 1-D  position  displacement  velocity  speed.

PH 201 Dr. Cecilia Vogel Lecture 1. OUTLINE  Motion in 1-D  position  displacement  velocity  speed.
PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Constant acceleration  x vs t, v vs t, v vs x  Vectors  notation  magnitude and direction OUTLINE  2-D.

PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Constant acceleration  x vs t, v vs t, v vs x  Vectors  notation  magnitude and direction OUTLINE  2-D.
PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Constant acceleration  x vs t, v vs t, v vs x  Vectors  notation  magnitude and direction OUTLINE  2-D.

PH 201 Dr. Cecilia Vogel Lecture 4. REVIEW  Constant acceleration  x vs t, v vs t, v vs x  Vectors  notation  magnitude and direction OUTLINE  2-D.
Honors Physics Chapter 3

Honors Physics Chapter 3
Chapter 3 Review Acceleration and Free Fall 1.When an object undergoes a change in velocity, it is said to be ______________. ans: accelerating/decelerating.

Chapter 3 Review Acceleration and Free Fall 1.When an object undergoes a change in velocity, it is said to be ______________. ans: accelerating/decelerating.
Projectile Motion. What Is It? Two dimensional motion resulting from a vertical acceleration due to gravity and a uniform horizontal velocity.

Projectile Motion. What Is It? Two dimensional motion resulting from a vertical acceleration due to gravity and a uniform horizontal velocity.
One Dimensional Projectile Motion Post-Activity Units: Projectile - an object for which the only force acting upon it is gravity. The force of air resistance.

One Dimensional Projectile Motion Post-Activity Units: Projectile - an object for which the only force acting upon it is gravity. The force of air resistance.
Projectile Motion Previously, we studied motion in one direction (linear motion) Projectiles follow a curved path (nonlinear motion) The velocity of a.

Projectile Motion Previously, we studied motion in one direction (linear motion) Projectiles follow a curved path (nonlinear motion) The velocity of a.
Projectile Motion.

Projectile Motion.

Similar presentations

Ads by Google