Physics (12%)

Question 1

Which of the following is NOT generally true of metals?

(A) They are usually solid at room temperature.
(B) They are good conductors of heat and electricity.
(C) They easily form negative ions.
(D) They have luster.
(E) They can be hammered into sheets or rolled into wires.

Answer 1

(C) They easily form negative ions.

Question 2

The amount of heat energy released when a certain type of candle is burned is 48,000 joules per gram of wax consumed. Which of the following expressions is equal to the number of grams of wax that need to be burned in order to raise the temperature of 500 grams of water from 20°C to 30°C, assuming all the heat released goes into heating the water? (The specific heat of water is 4.19J/g°C)

(A) (48,000)(10)(4.19) / 500
(B) (48,000)(4.19) / (500)(10)
(C) (4.19)(10)(500) / 48,000 
(D) (4.19)(500) / (10)(48,000)
(E) (30)(4.19)(500) / (2)(48,000)

Answer 2

(C) (4.19)(10)(500) / 48,000

In any calculation for “Heat Transfer and Temperature Change), the heat transfer (Q) is usually represented in joules (J) and is ALWAYS divided by (/) m (mass) x specific heat (c) x T (change in temperature).

Remember: Q = m (x) c (x) T

(x) = multiplied by

Question 3

How many joules of energy are absorbed by a 20.0 g sample of water as the temperature of the sample is raised from 273 K to 283 K? (The specific heat capacity of water is 4.2Jg−1k−1.)

(A) 42 J 
(B) 84 J 
(C) 200 J 
(D) 840 J
(E) 4,200 J

Answer 3

(D) 840 J

Calculation: 20 * 4.2 * 10

Question 4

Energy can be transferred from one place to another by which of the following?

I. Conduction
II. Convection
III. Radiation

(A) I only 
(B) II only 
(C) III only 
(D) I and II only 
(E) I, II, and III

Answer 4

(E) I, II, and III

Question 5

Which of the following is true about a sinking parcel of air?

(A) It will decrease in pressure. 
(B) It will expand and cool. 
(C) It will be unstable. 
(D) It will compress and warm.
(E) It will form clouds.

Answer 5

(D) It will compress and warm.

Question 6

At a fixed pressure, when the temperature of a gas sample increases, its volume increases. This relationship between the temperature and the volume of a gas is best described as which of the following?

(A) Direct proportion
(B) Inverse proportion 
(C) Limiting ratio 
(D) Hyperbolic function 
(E) Logarithmic function

Answer 6

(A) Direct proportion

Question 7

x_____________y
/\
The balance shown above is in equilibrium at Earth’s surface, and the two arms have the same length d. Thus the two objects, X and Y (not necessarily drawn to scale), must have identical

(A) densities 
(B) masses 
(C) shapes 
(D) specific gravities 
(E) volumes

Answer 7

(B) masses

Question 8

Which of the states of matter is being described? “A substance has a definite volume, but no definite shape.”

(A) solid 
(B) liquid 
(C) gas 
(D) plasma 
(E) none of the above

Answer 8

(B) liquid

Question 9

Which of the following is true about the temperature of liquid water in a lake that has frozen over during the winter?

(A) The coldest water can be found at the lake bottom.
(B) The coldest water can be found at middle depths.
(C) The warmest water can be found at the lake bottom.
(D) The warmest water can be found at middle depths.
(E) The warmest water can be found just beneath the ice.

Answer 9

(C) The warmest water can be found at the lake bottom.

Question 10

A person drops a rock from a height of 12 meters above Earth’s surface. The rock starts at rest and falls to the ground. At what height does the rock achieve half of its maximum kinetic energy?

(A) 12 meters 
(B) 9 meters 
(C) 6 meters 
(D) 3 meters 
(E) 0 meters

Answer 10

(C) 6 meters

Question 11

To measure volume in SI units, you would use:

(A) kilograms 
(B) meters 
(C) liters 
(D) cups 
(E) gallons

Answer 11

(C) liters

Question 12

_____ is energy that flows from an object and can increase the temperature of an object that is cooler.

(A) Heat
(B) Temperature
(C) Radiation
(D) Convection
(E) Conduction

Answer 12

(A) Heat

Question 13

_____ is a measure of the average kinetic energy of that object.

(A) Heat
(B) Temperature
(C) Radiation
(D) Convection
(E) Conduction

Answer 13

(B) Temperature

Question 14

The particles in a substance are always moving – even in a solid. The temperature at which the motion of the particles stops is called _____, or _____, though it has never been reached by any substance.

(A) Radiation, 1 Kelvin
(B) Absolute zero, 0 Kelvin
(C) Convection, 0 Kelvin
(D) Conduction, 1 Kelvin

Answer 14

(B) Absolute zero, 0 Kelvin

Question 15

Radiation, convection, and conduction are the 3 common methods of _____.

(A) Thermodynamics
(B) Heat transfer
(C) Endothermic reactions
(D) Exothermic reactions

Answer 15

(B) Heat transfer

Question 16

_____ is energy transferred by electromagnetic waves directly as a result of a temperature difference. An obvious example is the warming of the Earth by the Sun.

(A) Radiation
(B) Convection
(C) Conduction

Answer 16

(A) Radiation

Question 17

_____ is the heat transfer by the macroscopic movement of a fluid. This type of transfer takes place in a forced-air furnace and in weather systems.

(A) Radiation
(B) Convection
(C) Conduction

Answer 17

(B) Convection

Question 18

_____ is heat transfer through stationary matter by physical contact. (The matter is stationary on a macroscopic scale—we know there is thermal motion of the atoms and molecules at any temperature above absolute zero.) Heat transferred between the electric burner of a stove and the bottom of a pan is transferred by this,

(A) Radiation
(B) Convection
(C) Conduction

Answer 18

(C) Conduction

Question 19

Which of the states of matter is being described? “A substance has a definite volume and definite shape, and strong intermolecular attraction.”

(A) solid 
(B) liquid 
(C) gas 
(D) plasma 
(E) none of the above

Answer 19

(A) solid

Question 20

Which of the states of matter is being described? “A substance has no definite volume, no definite shape, and weak intermolecular attraction.”

(A) solid 
(B) liquid 
(C) gas 
(D) plasma 
(E) none of the above

Answer 20

(C) gas

Question 21

The Ideal Gas Law formula is

(A) VT = nRP
(B) RT = nPV
(C) PV = nRT
(D) PT = nRV
(E) None of the above

Answer 21

(C) PV = nRT

P - Pressure
V - Volume
n - Amount of gas
R - Gas constant
T - Temperature of the gas

Only P, V, and T are elements that you can change.

Pressure and volume are proportional to temperature, assuming nR is constant. Pressure and volume are inversely proportional to each other – if one goes up, the other must drop.

Question 22

Melting point temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 22

(A) Solid to liquid

Question 23

Freezing point temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 23

(B) Liquid to solid

Question 24

Boiling point temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 24

(C) Liquid to gas

Question 25

Heat of fusion temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 25

(D) Melt 1 kg of solid

Question 26

Heat of vaporization temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 26

(E) 1 kg liquid to gas

Question 27

Condensation temperature means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 27

(F) Gas to liquid

Question 28

Evaporation point means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 28

(G) Liquid to gas

Question 29

Evaporation point means

(A) Solid to liquid
(B) Liquid to solid
(C) Liquid to gas
(D) Melt 1 kg of solid
(E) 1 kg liquid to gas
(F) Gas to liquid
(G) Liquid to gas

Answer 29

(G) Liquid to gas

Question 30

_____ is a measure of matter per units of volume.

(A) Mass
(B) Density
(C) Specific gravity
(D) Pressure
(E) Velocity

Answer 30

(B) Density

Density = mass / volume

Question 31

_____ is a measure of force per units of area.

(A) Mass
(B) Density
(C) Specific gravity
(D) Pressure
(E) Velocity

Answer 31

(D) Pressure

Pressure in a gas can impact its density, as a gas will always spread, or compress, to fill the container it is in. Liquids and solids are less responsive to pressure.

Question 32

_____ is a measure of both mass (m) and pressure.

(A) Terminal velocity
(B) Force of gravity
(C) Density
(D) Velocity

Answer 32

(B) Force of gravity

The force of gravity (F) is a measure of both mass (m) and pressure. The weight of an object is a function of the mass and the pull of gravity upon it. The force of gravity (F) = Mass (m) x acceleration caused by gravity (g) or F = mg.

The acceleration caused by gravity is 9.8 meters/second2. The weight of an object = mg. A falling object will continue to accelerate until the force or air resistance equals the acceleration due to gravity – a point called terminal velocity. This is independent of the weight of the object.

Question 33

_____ is the study of objects in motion.

(A) Work
(B) Speed
(C) Mechanics
(D) Acceleration
(E) Momentum

Answer 33

(C) Mechanics

Mechanics is the study of objects in motion. Classical mechanics studies objects larger than atoms but slower than light.

Question 34

In Classical Mechanics and Relativity, _____ is the movement of mass over distance.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 34

(A) Work

Work – movement of mass over distance (w=fd).

Question 35

In Classical Mechanics and Relativity, _____ is the rate of change of distance traveled.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 35

(B) Speed

Speed – rate of change of distance traveled (s=d/t).

Tip: ‘rate’ and ‘distance’ are key words.

Example: A speed limit sign might read 55 mph. 55 is the speed at which you will drive 1 mile.

Question 36

In Classical Mechanics and Relativity, _____ is the change in position, noting the starting point and the end point (not always = distance).

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 36

(C) Displacement

Displacement – change in position, noting the starting point and the end point (not always = distance).

Question 37

In Classical Mechanics and Relativity, _____ is the rate of change of displacement.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 37

(D) Velocity

Velocity – rate of change of displacement (v = d/t).

Question 38

In Classical Mechanics and Relativity, _____ is the rubbing motion that acts against motion between two touching surfaces.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 38

(E) Friction

Friction – rubbing motion that acts against motion between two touching surfaces.

Question 39

In Classical Mechanics and Relativity, _____ is the rate of change of velocity.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 39

(F) Acceleration

Acceleration – rate of change of velocity (a=v2-v1/t2-t1).

Question 40

In Classical Mechanics and Relativity, _____ is the product of mass and velocity.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 40

(G) Momentum

Momentum – product of mass and velocity.

Question 41

In Classical Mechanics and Relativity, _____ is the push or pull exerted.

(A) Work
(B) Speed
(C) Displacement
(D) Velocity
(E) Friction
(F) Acceleration
(G) Momentum
(H) Force

Answer 41

(H) Force

Force – push or pull exerted.

Question 42

Newton’s Laws of Motion:

1. Law of Inertia – an object at rest (or in motion) will stay at rest (or in motion) until acted upon by another object or force.
2. Law of Force vs. Mass – the rate of change of an object is proportional to its mass and the force acting upon it, or F = ma.
3. Law of Action and Reaction – interactions between two objects produces two forces that are equal in magnitude and opposite in direction.

Answer 42

Know these Laws of Motion!

Question 43

In Si Units – (International System of Units), mass would be measured in

(A) grams
(B) pounds
(C) kilograms
(D) milligrams

Answer 43

(C) kilograms

Question 44

In Si Units – (International System of Units), time would be measured in

(A) minutes
(B) hours
(C) seconds
(D) days

Answer 44

(C) seconds

Question 45

In Si Units – (International System of Units), length would be measured in

(A) inches
(B) centimeters
(C) meters
(D) kilometers

Answer 45

(C) meters

Question 46

Einstein’s theory of relativity summed up states:

1. The speed of light is constant
2. The laws of physics are the same for all inertial frames of reference: E = mc2

Answer 46

Know Einstein’s theory of relativity!

Question 47

The amount of energy necessary to raise one gram of a substance by one degree Celsius is referred to as

(A) Heat transfer
(B) Specific heat
(C) Thermodynamics
(D) Radiation

Answer 47

(B) Specific heat