1. Free Fall Free fall: when an object is only affected by gravity
Think about an apple falling from a tree.
It starts at rest and gains speed as it falls, or accelerates.
Gravity causes the apple to accelerate downward and is said to be in free fall.
Free fall: when an object is only affected by gravity
Unit: m/s2 ( for acceleration due to gravity)
g = 10 m/s2 on Earth.
The letter g represents the acceleration due to gravity.

2. Equation: v = gt
v = velocity or speed (m/s)
g = acceleration due to gravity (10 m/s2 on Earth)
t = elapsed time (s)
**Hint - as soon as you see any of the following phrases in a word problem, write g = 10 m/s2 for a given: free fall, falling, dropped, thrown**

3. Remember, the object’s velocity increases by 10 m/s every second it falls
Time falling
velocity 0s
1 s
2 s
3 s
4 s
5 s 6s 7s 8s 9s

4. Check Your Understanding
What would the speedometer reading on a falling rock be 4.5 seconds after it drops from rest?
v = ?
g = 10 m/s2
t = 4.5s
v = gt
v = (10 m/s2) (4.5s)
v = 45 m/s

5. How about 8 seconds? v = gt v = 80 m/s How about 15 seconds?
g = 10 m/s2
t = 8s
v = gt
v = (10 m/s2) (8s)
v = 80 m/s
How about 15 seconds?
t = 15s
v = (10 m/s2) (15s)
v = 150 m/s

6. Now consider an object thrown straight up
Now consider an object thrown straight up. It will continue to move straight up, then it comes back down.
At the highest point, the object changes its direction and the objects instantaneous speed is 0 m/s.
Whether the object is moving up or down, the acceleration of the object is always 10 m/s2.
It is just -10 m/s/s when the object is moving up
Because gravity is slowing the object down instead of speeding it up
It is decelerating!!

7. Because an object in free fall increases the rate of distance covered every second, we cannot use v =d/t to find distance.
Equation: d = ½ gt2
d = distance (m)
g = acceleration due to gravity (10 m/s2 on Earth)
t = elapsed time (s)

8. Use the distance formula to find how far the object will fall at each second
Time falling
Distance travelled
0 s
1 s
2 s
3 s
4 s
5 s
6 s
7 s
8 s
9 s

9. Practice problem 1
If it takes a rock that falls off a cliff 8 seconds to hit the ground, then what is its speed and how far has it fallen?

10. Practice problem 2
If a rock falls 320 m, how long did it take for that rock to fall?

11. Challenge practice problem
If you throw a ball straight up at 20 m/s, how long will it take for the ball to come to a complete stop before it starts to fall?

12. The problem with air
When you drop a crumpled piece of paper and a flat sheet of paper they should fall and hit the ground at the same time, but do they?
The reason the crumpled piece of paper hits the ground first is because it experiences less air resistance
A frictional force (means it goes against motion) caused by air
The greater the surface area of an object, the more air resistance it feels

13. Free Falling Formulas Velocity (m/s) Velocity = Gravity X Time
What is the object’s velocity?
What will the velocity be after hitting the ground?
What is the velocity at impact?
How fast is the object going?
Calculate the velocity
Distance (meters)
Distance = 𝐆𝐫𝐚𝐯𝐢𝐭𝐲 (𝐓𝐢𝐦𝐞 𝟐) 𝟐
What is the distance that the object fell?
How tall is the building or cliff?
How far does the object fall?
How high was the object?
Calculate the distance the object fell.
Find the height of the building or cliff.
Time (seconds)
Time = 𝟐 (𝐃𝐢𝐬𝐭𝐚𝐧𝐜𝐞) 𝐆𝐫𝐚𝐯𝐢𝐭𝐲
How long would it take?
How long do you have?
How many seconds?