1. Please take your exam back and a project contract (1 mins).
Aim 34: Review!!!
Do Now: Due to unforeseen circumstances Exam I will not be graded as an exam!
Please take your exam back and a project contract (1 mins).
Correct the wrong responses you had on the exam by attaching a sheet of paper to it with the corrections/ explanations.

2. Displacement – has magnitude and direction
Which is a vector quantity?
speed mass
work displacement
V 1 – Q 1
V2 – Q 7
V 3 – Q 1

3. A race car starting from rest accelerates uniformly at a rate of 4
A race car starting from rest accelerates uniformly at a rate of 4.90 meters per second2. What is the car’s speed after it has traveled 200. meters?
G: vi = 0 m/s , a = 4.90 m/s2, d = 200 m
U: vf = ?
E: vf2 = vi2 + 2 ad
S: vf2 = 0m/s + 2 (4.9 m/s2 ) (200m)
vf2 = 1960 m2/s2
vf= m/s
S: vf= 44.3 m/s
V 1 – Q 2
V2 – Q 13
V 3 – Q 2

4. A ball is thrown straight downward with a speed of 0
A ball is thrown straight downward with a speed of 0.50 meter per second from a height of 4.0 meters. What is the speed of the ball 0.70 second after it is released? [Neglect friction.]
G: vi = 0.50 m/s , t = 0.70 s, d = 4.0m, a = 9.8 m/s2,
U: vf = ?
E: vf = vi + at
S: vf = 0.50m/s + (9.8 m/s2 ) (0.70 s)
vf = 7.36 m/s
S: vf= 7.4 m/s
V 1 – Q 3
V2 – Q 3
V 3 – Q 3

5. In the diagram a 20. -newton force due north and a 20
In the diagram a 20.-newton force due north and a 20.-newton force due east act concurrently on an object, as shown in the diagram.
The additional force necessary to bring the object into a state of equilibrium is
a2 + b2 = c 2
= c2
c = 28 N (SW)

6. 5. Which object has the greatest inertia?
a 5.00-kg mass moving at 10.0 m/s
a 10.0-kg mass moving at 1.00 m/s
a 15.0-kg mass moving at 10.0 m/s
a 20.0-kg mass moving at 1.00 m/s
The one with the biggest mass is the 20 Kg mass. Disregard all other information than the mass for inertia problems.
Inertia  Mass
V 1 – Q 5
V2 – Q 15
V 3 – Q 5

7. 6. As a car is driven south in a straight line with decreasing speed, the acceleration of the car must be
directed northward
directed southward
zero
constant, but not zero
velocity and acceleration must be in opposite directions if you are slowing down.

8. A baseball dropped from the roof of a tall building takes 3
A baseball dropped from the roof of a tall building takes 3.1 seconds to hit the ground. How tall is the building? [Neglect friction.]
G: vi = 0 m/s , a = 9.8 m/s2, t = 3.1 s
U: d = ?
E: d = vi t + ½ a t2
S: d = (0m/s)(3.1s) + ½ (9.8 m/s2 ) (3.1s)2
d = m
S: d = 47 m
V 1 – Q 7
V2 – Q 1
V 3 – Q 7

9. 8. Which object has the greatest inertia?
a falling leaf
a softball in flight
a seated high school student
a rising helium-filled toy balloon
The one with the biggest mass is the high school student.

10. On a highway, a car is driven 80. Kilometers during the first 1
On a highway, a car is driven 80. Kilometers during the first 1.00 hour of travel, 50. kilometers during the next 0.50 hour, and 40. kilometers in the final 0.50 hour. What is the car’s average speed for the entire trip?
G: d1 = 80 km, d2 = 50 km, d3 = 40 km, t1 = 1hr, t2 = 0.50 hr, t3 = 0.50 hr
U: average v = ??
E: average v = d/t
S: average v = (80km + 50km+ 40 km)/(2hrs)
V = 170 km/ 2hr
S: v= 85 km/ hr
V 1 – Q 9
V2 – Q 16
V 3 – Q 9

11. A high-speed train in Japan travels a distance of 300. kilometers in 3
A high-speed train in Japan travels a distance of 300. kilometers in 3.60 × 103 seconds. What is the average speed of this train?
G: t = d = 300 km, 3.60 × 103 s
U: average v = ?
E: average v = d/t
S: v = (300km )(1000m/km)/ 3.60 × 103 s
v = m/s
S: v= 83.3 m/s

12. A 747 jet, traveling at a velocity of 70
A 747 jet, traveling at a velocity of 70. meters per second north, touches down on a runway. The jet slows to rest at the rate of 2.0 meters per second2.
Calculate the total distance the jet travels on the runway as it is brought to rest. [Show all work, including the equation and substitution with units.] [2]
G: vi = 70. m/s , vf = 0m/s, a = 2.0 m/s2
U: d = ?
E: vf2 = vi2 + 2 ad
S: 0m/s = (70m/s)2 + 2 (2.0 m/s2 ) d
4900 m2/s2 = 4 m/s2 d
1225m= d
S: 1200 m = d
V 1 – Q 11
V2 – Q 24
V 3 – Q 11

13. A 747 jet, traveling at a velocity of 70
A 747 jet, traveling at a velocity of 70. meters per second north, touches down on a runway. The jet slows to rest at the rate of 2.0 meters per second2.
On the diagram, point P represents the position of the jet on the runway. Beginning at point P, draw a vector to represent the magnitude and direction of the acceleration of the jet as it comes to rest. Use a scale of 1.0 centimeter = 0.50 meter/second2. [2]
2 cm for every m/s 2
You have 2 m/s 2
2x2 = 4
4 cm

14. Which graph best represents the motion of an object in equilibrium?
Think about what equilibrium means – no acceleration – constant velocity.
Same slope for a x-t graph or a horizontal in v-t graphs.

15. A car traveling west in a straight line on a highway decreases its speed from 30.0 meters per second to 23.0 meters per second in 2.00 seconds. The car’s average acceleration during this time interval is
G: vi = 30.0 m/s , vf = 23.0 m/s , t = 2.00 s
U: a = ?
E: a = (vf - vi )/t
S: a = (23.0m/s- 30m/s)/(2.00s)
a = -7m/s / 2 s
S: d = -3.5 m/s2
3.5 m/s2 in the opposite direction or eastward.
V 1 – Q 14
V2 – Q 2
V 3 – Q 14

16. In a race, a runner traveled 12 meters in 4
In a race, a runner traveled 12 meters in 4.0 seconds as she accelerated uniformly from rest. The magnitude of the acceleration of the runner was
G: vi = 0.0 m/s , d = 12 m , t = 4.0 s
U: a = ?
E: d = vi t + ½ a t2
S: 12 m = (0m/s)(4.0s) + ½ a (4.0s)2
12m = a ( 16s2) /2
12m = a(8s2)
S: 1.5m/s2 = a
V 1 – Q 15
V2 – Q 14
V 3 – Q 15

17. Which situation represents a person in equilibrium?
a child gaining speed while sliding down a slide
a woman accelerating upward in an elevator
a man standing still on a bathroom scale
a teenager driving around a corner in his car
Think about what equilibrium means – no acceleration – constant velocity.
V 1 – Q 16
V2 – Q 5
V 3 – Q 16

18. The diagram below shows a compressed spring between two carts initially at rest on a horizontal, frictionless surface. Cart A has a mass of 2 kilograms and cart B has a mass of 1 kilogram. A string holds the carts together.
The string is cut and the carts move apart. Compared to the magnitude of the force the spring exerts on cart A, the magnitude of the force the spring exerts on cart B is
the same
Newton 3rd law pairs!

19. In a drill during basketball practice, a player runs the length of the 30.-meter court and back. The player does this three times in 60. seconds.
The magnitude of the player’s total displacement after running the drill is
0.0 m
He goes back to where he started at!

20. In a drill during basketball practice, a player runs the length of the 30.-meter court and back. The player does this three times in 60. seconds.
The average speed of the player during the drill is
3.0 m/s
(30 m x 6) / 60 s = 180m/ 60s = 3 m/s

21. A number of 1.0-newton horizontal forces are exerted on a block on a frictionless, horizontal surface. Which top-view diagram shows the forces producing the greatest magnitude of acceleration of the block?

22. A car, initially traveling east with a speed of 5
A car, initially traveling east with a speed of 5.0 meters per second, is accelerated uniformly at 2.0 meters per second2 east for 10. Seconds along a straight line. During this 10.-second interval the car travels a total distance of
G: vi = 5.0 m/s , a = 2.0 m/s2 , t = 10. s
U: d = ?
E: d = vi t + ½ a t2
S: d = (5.0m/s)(10.s) + ½ (2.0 m/s2)(4.0s)2
d = 50m + 16m
d = 66m
S: d = 60 m
V 1 – Q 21
V2 – Q 16
V 3 – Q 21

23. Which object has the greatest inertia?
a kg bullet traveling at 90. m/s
a 30.-kg child traveling at 10. m/s on her bike
a 490-kg elephant walking with a speed of 1.0 m/s
a 1500-kg car at rest in a parking lot
The one with the biggest
mass is the parked car.

24. Four forces act concurrently on a block on a horizontal surface as shown in the diagram.
As a result of these forces, the block
accelerates to the left

25. A kilogram boy and a 50.0-kilogram girl, each holding a spring scale, pull against each other as shown in the diagram below.
The graph below shows the relationship between the magnitude of the force that the boy applies on his spring scale and time.

26. Which graph best represents the relationship between the magnitude of the force that the girl applies on her spring scale and time?
Newton’s 3rd law Pair!

27. Bonus Rounds I
Vector: A physical quantity with magnitude (size) and direction.
Velocity: The change in displacement in an interval of time.
Force: Any action that changes the motion of an object.

28. Bonus Rounds II
Newton’s 3rd law: A force on B by A = the force B applies to A in the opposite direction.
Law of Inertia: Objects resist a change in their velocity based on their mass.

29. Bonus Rounds III
Draw the free-body diagram for a skier who is moving at a constant velocity to the right.
Normal force
Force of gravity

30. Bonus Round IV
If Leito kicked a soccer ball on a level field has an initial vertical velocity component of 15.0 meters per second. Assuming the ball lands at the same height from which it was kicked, what is the total time the ball is in the air? [Neglect friction.]
G: vi = 15.0 m/s , vf = 0 m/s, a = 9.8 m/s2,
U: t = ? (round trip) x 2
E: vf = vi + at
S: 0m/s = 15 m/s m/s2 t
S: -15m/s = (9.8 m/s2 ) t
s = t x 2 = 3.06 s
S: t = 3.1 s