Math Skills
Kinematics
Dynamics
Energy
Rotational
100
a scalar is just the magnitude while this is both magnitude and direction

vector

100

Displacement over time is equal to this...(be precise)

AVERAGE velocity

100

If a question talks about forces these might be your first two steps.

1) FBD

2) F=ma

100

The major law or concept for this unit is called this and the starting equation is that.

Conservation of Energy

Ei=Ef

100

The relationship that between linear and rotational values ( ex. displacement and angular displacement) relies on this

radius

200

K + v2 = 0.5x2 + Z    This expression solved for x is 

x = sqrt[2(K+ v2 - Z)]

200

The accelerations of a projectile in free fall is always ax = ____ and ay = ______

0 m/s2 and -9.81m/s2

200
this law states that two objects interact with equal and opposite forces.

N3L

200

A rollercoaster at the top of its path has no velocity. It starts with this type of energy and as it travels to the bottom of the path it converts into this type.

PEg to KE

200

A mass is attached to a string that's wrapped around a pulley at rest. The pulley has a rotational inertia of 0.75 kg m2 and is free to rotate about an axis through its center. Friction between the pulley and axle is negligible. At time t = 0 the mass is released and allowed to fall, rotating the pulley. The resulting torque on the pulley is 3.0 Nm.

The angular speed of the pulley after 1.8 s is


7.2 rad/s


T = Ia

a = 4.0 rad/s2

w = w0 +at

300

A man travels north 55 meters, east 25 meters, and south 20 meters. Only looking at his displacement vector, the direction he travelled in is.

35.5 deg NE

300

The displacement of the object between 0 to 4 seconds is 

[GRAPH]

18 m

300

A 5.0-kg and a 10.0-kg box are touching each other. A 45.0-N horizontal force is applied to the 5.0-kg box in order to accelerate both boxes across the floor. Ignore friction forces and determine the acceleration of the boxes and the force acting between the boxes.

3 m/s2


Ftot = mtot*a


300

These are the 4 types of energy we have used in analyses of scenarios.

Elastic PE

Gravitational PE

KE

Rotational KE

300

Compare the torques of the two given wrenches and justify: 

1: a force of F is applied at a distance R from the axis.

2: A force 3F is applied a distance R/3 from the axis

They are equal because torque is proportional to force and radius

400

Convert 25 km/hr to m/s.

6.94 m/s

400

A pedestrian walking on the side of the road travels north at 3 m/s (relative to a bird sitting in a tree). A car passes the pedestrian at a velocity of 20 m/s south (relative to that same bird). The velocity of the car relative to the walking pedestrian is this.

23 m/s

400

This is the FBD for the following statement: A block being dragged down a rough-surfaced incline.

Fg straight down

Fn perpendicular to surface

Ff parallel to surface up ramp

FT parallel to surface down the ramp

400

The work done to lift a 1500 kg amusement park ride to the top of its 50 meter drop is this. 

735,750 J

400

A meter stick is being balanced and has ana xis of rotationaround its center of mass. Two mass are hung from the meter stick. Mass 1, 3.5 kg, at the 20 cm mark and mass 2, 2.8kg, at the 60 cm mark. Mass 3, 3 kg, would need to be hung at this cm mark.

75 cm

Left torque = Right torque

3.5*.3 = 2.8*.1+3*X

500

When a question says to justify you are expected to do this.

Use physics concepts and laws (beyond equations) to support a claim.

500

A man jumps out of a plane and begins to fall towards Earth. Explain in detail why he uses a parachute to slow his descent.

I: Only gravity acts on him and he is accelerating towards Earth (speeding up)

II: the parachute applies an upwards force on the diver causing his acceleration to decrease or even change direction. If his acceleration is in the opposite direction of his velocity he will slow.

500

Two blocks are attached by a string that is wrapped over a pulley (basic atwood machine). Mass 1, 3 kg, is hanging on the left side while mass 2, 4.5 kg, is hanging on the right side. Counterclockwise is the positive direction in this case. The acceleration of the blocks is equal to this.

-1.96 m/s2

500

A car with mass m is traveling with velocity v1 at the top of a tall hill with height h. The derived equation for the velocity of the car at the top of the hill in terms of h,v2, m, in is this.

sqrt(v22 - 2gh)

500

A carousel—a horizontal rotating platform—of radius r is initially at rest, and then begins to accelerate constantly until it has reached an angular velocity ω after 2 complete revolutions. the angular acceleration in terms of ω, r, and any physical constants is

ω2/(8pi)


ω2 = ω02 +2a*theta

theta = 2 rev* 2pi

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