Presentation is loading. Please wait.

Presentation is loading. Please wait.

Freefall.  Remember our three kinematics:  a = (v f -v i ) t  ∆ d = v i t + (1/2)at 2  v f 2 = v i 2 + 2a ∆ d.

Published byJuniper Beasley Modified over 9 years ago

Similar presentations

Presentation on theme: "Freefall.  Remember our three kinematics:  a = (v f -v i ) t  ∆ d = v i t + (1/2)at 2  v f 2 = v i 2 + 2a ∆ d."— Presentation transcript:

1 Freefall

2  Remember our three kinematics:  a = (v f -v i ) t  ∆ d = v i t + (1/2)at 2  v f 2 = v i 2 + 2a ∆ d

3  Freefall refers to when an object is falling in air with no air resistance.  Obviously, there is air resistance in the real world. We will not take that into account when performing our calculations. All of our problems will take place in a vacuum  Objects in freefall are constantly accelerated at a rate of -9.8 m/s 2. This number is equal to the acceleration due to gravity.

4  When an object is dropped:  Initial velocity is equal to zero.  Final velocity is the velocity before the object hits whatever it will hit, so it is NOT zero.  Final velocity, acceleration, and displacement will always be negative because the object is traveling downward. Time is always positive.  You may be complicated and set your coordinate plane such that downward = positive and upward = negative. This will reverse the signs for final velocity, acceleration, and displacement. If you do this, WRITE OUT YOUR GIVENS AND SHOW YOUR WORK.

5

6  The observation deck of tall skyscraper 370 m above the street. Determine the time required for a penny to free fall from the deck to the street below.  A stone is dropped into a deep well and is heard to hit the water 3.41 s after being dropped. Determine the depth of the well.

7  When an object is thrown:  The problem must be split in HALF, the trip up and the trip down.  Conditions will be different dependent on which half you are solving for:  The way down will be like normal freefall  The way up will have a positive initial velocity and displacement, and final velocity will be equal to zero. Acceleration is still negative, and never equal to zero.

8

9  A kangaroo is capable of jumping to a height of 2.62 m. Determine the takeoff speed of the kangaroo.  A baseball is popped straight up into the air and has a hang-time of 6.25 s. Determine the height to which the ball rises before it reaches its peak. (Hint: the time to rise to the peak is one- half the total hang-time.)  If Michael Jordan has a vertical leap of 1.29 m, then what is his takeoff speed and his hang time (total time to move upwards to the peak and then return to the ground)?

10  Individually complete #45-46 on p.74  Complete the worksheet about Free Fall Problems.  When all work is completed, we’ll head in the lab for a short vertical projectile lab.

Download ppt "Freefall.  Remember our three kinematics:  a = (v f -v i ) t  ∆ d = v i t + (1/2)at 2  v f 2 = v i 2 + 2a ∆ d."

Similar presentations

Freefall Motion Notes Any object near the surface of the Earth experiences the pull of gravity. If released from rest, the object will fall freely toward.

Freefall Motion Notes Any object near the surface of the Earth experiences the pull of gravity. If released from rest, the object will fall freely toward.
Describing Motion with Equations There are a variety of quantities associated with the motion of objects – displacement (and distance), velocity (and speed),

Describing Motion with Equations There are a variety of quantities associated with the motion of objects – displacement (and distance), velocity (and speed),
Free Fall Chapter 2 Section 3. Free Fall  Free Fall – An object in free fall falls at a constant acceleration towards the surface of a planet neglecting.

Free Fall Chapter 2 Section 3. Free Fall  Free Fall – An object in free fall falls at a constant acceleration towards the surface of a planet neglecting.
High School by SSL Technologies Physics Ex-32 Projectile motion is the vectorial sum of two independent velocities, a horizontal component and a vertical.

High School by SSL Technologies Physics Ex-32 Projectile motion is the vectorial sum of two independent velocities, a horizontal component and a vertical.
Free Fall Examples. Example 2-14 Falling from a tower (v 0 = 0) Note! Take y as positive DOWNWARD! v = at y = (½)at 2 a = g = 9.8 m/s 2.

Free Fall Examples. Example 2-14 Falling from a tower (v 0 = 0) Note! Take y as positive DOWNWARD! v = at y = (½)at 2 a = g = 9.8 m/s 2.
Physics. Session Kinematics - 3 Session Objectives Problems ? Free fall under gravity.

Physics. Session Kinematics - 3 Session Objectives Problems ? Free fall under gravity.
Chapter 3 Free Fall Motion

Chapter 3 Free Fall Motion
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.
Free Fall Chapter 2 Section 3.

Free Fall Chapter 2 Section 3.
AP Physics B: Kinematics and Free Fall Free Fall problems include situations where the acceleration is due to gravity (only)

AP Physics B: Kinematics and Free Fall Free Fall problems include situations where the acceleration is due to gravity (only)
Warm - up Problem: A sprinter accelerates from rest to 10.0 m/s in 1.35s. a.) What is her acceleration? b.) How far has she traveled in 1.35 seconds?

Warm - up Problem: A sprinter accelerates from rest to 10.0 m/s in 1.35s. a.) What is her acceleration? b.) How far has she traveled in 1.35 seconds?
Free Fall and the Acceleration of Gravity Worksheet

Free Fall and the Acceleration of Gravity Worksheet
Motion of a Freely Falling Body

Motion of a Freely Falling Body
FALLING OBJECTS pp. 60 - 65 Freely falling bodies undergo constant acceleration. Such motion is referred to as free fall. The free-fall acceleration.

FALLING OBJECTS pp Freely falling bodies undergo constant acceleration. Such motion is referred to as free fall. The free-fall acceleration.
Preview Section 1 Displacement and Velocity Section 2 Acceleration

Preview Section 1 Displacement and Velocity Section 2 Acceleration
Page 1 Freefall Page 2 Freefall What is freefall? Which of the following things do you think are in freefall? Drop a ball from rest Toss it upward Throw.

Page 1 Freefall Page 2 Freefall What is freefall? Which of the following things do you think are in freefall? Drop a ball from rest Toss it upward Throw.
Objects Thrown Vertically Upward

Objects Thrown Vertically Upward
Projectile Review Questions

Projectile Review Questions
You are going 25 m/s North on I-35. You see a cop parked on the side of the road. What is his velocity related to you. A.25 m/s South B.25 m/s North C.0.

You are going 25 m/s North on I-35. You see a cop parked on the side of the road. What is his velocity related to you. A.25 m/s South B.25 m/s North C.0.
Unit 3: Kinematics & Free Fall

Unit 3: Kinematics & Free Fall

Similar presentations

Ads by Google