Physics Unit 3
If you knew the Mini Cooper's mass, the formula that would help you determine the Ford Mustang's velocity would be ______________.
m1v1i+m2v2i=m1v1f+m2v2f
If the Ford Mustang were to veer off the road and hit a sign, it would do much damage because its mass of 1533.142 kg times its velocity of 110 mph means it has a high ______________.
Momentum
The Ford Mustang and the SUV involved in the accident both had a momentum prior to the collision. After the collision, the ______________ momentum is vector sum of the momentum of the two vehicles.
Net
To calculate the Ford Mustang's momentum, you would use the formula ______________.
p=mv
The amount of work done to move the tire 5 miles in 5 minutes is equal to the ______________ necessary to perform that task.
Power
*Tire with sticky note picture* B (line from edge of tire to center of tire) points to the object's ______________.
Radius
*Tire with sticky note picture* The speed at which the sticky note follows the circumference in rotation around the tire's axis is the sticky note's ______________ speed.
Rotational
The tire and the axle it is attached to tend to remain in rotation due to ______________. That is why you need brakes on a car- to stop the tires' rotating motion.
Rotational Inertia
*Tire with sticky note picture* C (Line from sticky note to ground) is the ______________ line the sticky note would follow if it became unattached during the tire's rotation.
Tangent
*Tire with sticky note picture* The speed with which the sticky note would have if it became unattached during the tire's rotation is the sticky note's ______________.
Tangential Speed
The Ford Mustang's velocity was compted by using the formula ______________ and including the direction the car was traveling in.
v=d/t
Since the Ford Mustang's velocity, acceleration, and momentum all involve direction, these quantities are ______________ quantities
Vector
The statement "A Ford Mustang is moving at 63 mph northwest" describes the Mustang's ______________.
Velocity
The amount of force needed to move the tire 5 miles is equal to the ______________ required to perform that task.
Work
The Ford's Mustang's acceleration might be expressed as ______________.
7 mph/s
Centripetal force pulls a mass out of its ______________.
Inertial Path
Now the Ford Mustang changes its velocity by speeding up to 70 mph in one second. It is still traveling towards the northwest. The mustang has began ______________.
Acceleration
If the momentum of the Ford Mustang changed, it would be due to ______________.
An Impulse
In a parking lot, the Ford Mustang bumps into a Mini Cooper traveling in the same direction. Their fenders lock together and for a short time, they travel together. Their collision is ______________.
Inelastic
The rate of the tire's speed suddenly increases. The sticky note's speed also increases. Another way of say this is that the sticky note's ______________ increases.
Centripetal Acceleration
*Tire with sticky note picture* D (Line from sticky note to the center of the tire) represents the ______________ that makes the sticky note try to move inward to the tire's axis.
Centripetal Force
*Tire with sticky note picture* A sticky note became attached to the tire. As the tire rotates, the sticky note travels in nonlinear, or ______________ motion.
Circular
*Tire with sticky note picture* A (the tire itself) points to the object's ______________.
Circumference
If the Ford Mustang accidentally went off the third floor of parking garage, it would accelerate towards the street due to the force of ______________.
Gravity
The centripetal force that keeps you on the face of the earth is ______________.
Gravity
Examine the rotational inertial formula carefully. Would solid or hollow tires have less rotational inertia?
Hollow
The formula for rotational inertia is ______________.
I= md2
On a street, the Ford Mustang traveling at 60 mph collides head-on with an SUV going 27 mph in the opposite direction. The two vehicles bounce off of each other and move away in opposite directions. Their collision is ______________
Elastic
To compute the force of gravity, you would use the formula ______________.
F= G(m1m2/d2)
To calculate the time it would take for a ball to fall from the third floor to the street, you would use the formula ______________
d=1/2(gt2)
