2. 1. Draw a picture of a car driving.
2. Drive the car off a cliff
3. Above the path of the car driving
off the cliff, write what the shape
is called.
4. Below the path of the car driving
off the cliff, write what the path
is called.
4. Check Answers.
1. Draw a picture of a car driving.
2. Drive the car off a cliff
3. Above the path of the car driving off the
cliff, write what the shape is called.
Parabola
4. Below the path of the car driving off the
cliff, write what the path is called.
Trajectory
5. 5. Label the 1D part(s)
6. Label the 2D part(s)
7. Put a star where the car is
moving the fastest.
8. Put a triangle where it is moving
the slowest.
7. Check Answers.
5. Label the 1D part(s)
6. Label the 2D part(s)
7. Put a star where the car is moving the
fastest.
Lowest point of the parabola
8. Put a triangle where it is moving the
slowest.
Highest point of the parabola
8. 9. Just as the car goes over the edge, a
boulder falls. Draw the boulder falling.
10. Draw the car just before it hits the
bottom.
11. Which hits the ground first? Circle the
car, boulder, both, or neither.
12. Which one is going faster? Put a box
around the car, boulder, both, or
neither.
10. Check Answers.
9. Just as the car goes over the edge, a boulder
falls. Draw the boulder falling.
10. Draw the car just before it hits the bottom.
11. Which hits the ground first? Circle the car,
boulder, either, or neither. Both hit at the
same time.
12. Which one is going faster? Put a box around
the car, boulder, either, or neither.
Car x & y together are greater than the
11. A car traveling at 25 m/s
accelerates at 4.2 m/s for 15 m. At
2
the end of the 15 m, the car drives
over a 20 m high cliff.
13. Label the givens in the
picture.
14. Draw the tables for this
problem.
13. Check Answers.
A car traveling at 25 m/s
accelerates at 4.2 m/s2 for 15 m. At
the end of the 15 m, the car drives
over a 20 m high cliff.
13. Label the givens in the picture.
14. Draw the tables for this problem.
Should have a 1D table and a 2D table.
14. 15. At the bottom, write how many
objects there are.
16. Beside #15, write what
combines/connects this problem.
17. Above the car, finish this sentence,
“Velocity is ____” (the definition)
18. Find the final velocity before the
car goes over the cliff.
16. Check Answers.
15. At the bottom, write how many objects there are.
1 Object. The car. (Boulder doesn’t count because it never
intercepts the car.)
16. Beside #15, write what combines/connects this problem.
Vf at end of 1D = Vi at beginning of 2D
17. Above the car, finish this sentence, “Velocity is ____” (the
definition)
speed in a direction or displacement divided by
time.
18. Find the final velocity before the car goes over the cliff.
V = 27.4 m/s
17. 19. Inside the cliff, draw the graphs for
constant acceleration.
20. Find the time the car is in the air.
22. Check Answers.
21. To the right of the cliff… how is displacement different than
distance?
Distance is total path – Displacement is beginning
to end.
22. Find how far from the cliff the car lands. X = 55.4 m