PhysicsLAB: MCAS 2006 Session 2

PhysicsLAB

MCAS Physics Exams
MCAS 2006 Session 2

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Visible light passes through glass. Other types of electromagnetic radiation are able to pass through other materials in a similar way. Which of the following are used in medical technology because they can pass through some parts of the human body?

A. x-raysB. infrared wavesC. microwavesD. ultraviolet rays

A negatively charged rubber rod was brought near some small pieces of paper. The rod’s charges repelled the negative charges in the pieces. Which of the following caused the repulsion of the negative charges?

A. conductionB. gravitationC. inductionD. insulation

The Sun’s gravitational attraction causes a comet’s path to curve as shown in the illustration below.

Which of the following statements best explains the fact that the Sun does not appear to move due to the comet’s gravitational attraction?

A. The Sun’s mass is much greater than the comet’s mass.
B. The comet is too far away for its gravity to affect the Sun.
C. In this gravitational interaction only the comet exerts a pull on the Sun.
D. The path of the comet reduces the Sun’s gravity.

Which of the following changes occurs as a solid is heated?

A. The kinetic energy of the solid decreases.
B. The average density of the solid increases.
C. The speciﬁc heat capacity of the solid decreases.
D. The average molecular speed in the solid increases.

Which of the following describes the mechanical energy of a cart at rest at the top of a steep hill?

A. The cart has no mechanical energy.
B. The cart’s mechanical energy is all kinetic.
C. The cart’s mechanical energy is all potential.
D. The cart’s mechanical energy is half potential and half kinetic.

The ﬁgure below shows a neutral glass rod and a positively charged metal sphere.

Which of the following best describes the movement of charges as this glass rod touches the sphere?

A. Negative charges move from the sphere to the glass rod.
B. Negative charges move from the glass rod to the sphere.
C. Positive charges move from the sphere to the glass rod.
D. Positive charges move from the glass rod to the sphere.

What is the voltage in a circuit with a current of 3 A and a total resistance of 12 Ω ?

A. 0.25 VB. 4 VC. 15 VD. 36 V

What is the frequency of ocean waves that have a speed of 18 m/s and a wavelength of 50 m?

A. 0.18 HzB. 0.36 HzC. 2.8 HzD. 9.0 Hz

The diagram shows a motor being used to lift a load with the use of a pulley.

The motor is lifting the 6 kg box at a constant velocity. How much work is done on the box to lift it 2 m? (Assume no resistance from the pulley.)

A. 3 JB. 4 JC. 60 JD. 120 J

The diagram below represents a mass suspended vertically by a rubber band. The mass is set in motion by pulling down slightly on the mass and letting go.

Which of the following correctly identiﬁes the up-and-down motion of the mass?

A. torsionalB. transverseC. nonharmonicD. simple harmonic

Which of the following must be included with magnitude to represent a vector?

A. massB. directionC. accelerationD. volume

The instructions below outline the procedure for a demonstration.

Materials: four 100-gram metal blocks (each of a different metal) and four polystyrene foam cups (each containing 150 grams of 10^oC water)

Procedure:

Place the four cups of water next to each other on the lab bench.
Heat each block to a temperature of 60^oC.
Place each heated block in a separate cup of 10^oC water.
Measure the temperature change in each cup of water after 100 seconds.

At the end of the demonstration, which block raised the temperature of the 10^oC water the greatest amount?

A. the block with the greatest density
B. the block with the lowest surface area
C. the block with the greatest speciﬁc heat
D. the block with the lowest thermal conductivity

The circuit diagram below shows three resistors, an ammeter, and a battery.

How much current ﬂows through the ammeter?

A. 1.0 AB. 6.0 AC. 13.0 AD. 24.0 A

Some campers are sitting around a campfire outside their tent. Which product of the fire is in the form of electromagnetic waves?

A. lightB. smokeC. soundD. water vapor

A pitcher throws a 0.15 kg baseball at 40 m/s towards the catcher. What is the momentum of the baseball while moving at 40 m/s?

A. 0.025 kg • m/sB. 3.8 kg • m/sC. 6.0 kg • m/sD. 270 kg • m/s

An astronaut drops a 1.0 kg object and a 5.0 kg object on the Moon. Both objects fall a total distance of 2.0 m vertically. Which of the following best describes the objects after they have fallen a distance of 1.0 m?

A. They have each lost kinetic energy.
B. They have each gained the same amount of potential energy.
C. They have each lost the same amount of potential energy.
D. They have each gained one-half of their maximum kinetic energy.

The graph below represents changes in molecular motion in a solid plastic cylinder over time.

These changes in the molecules of the plastic cylinder must be accompanied by which of the following?

A. an increase in massB. a decrease in volumeC. an increase in temperatureD. a decrease in heat capacity

Open-Response Questions

BE SURE TO ANSWER AND LABEL ALL PARTS OF THE QUESTION.
Show all your work (diagrams, tables, or computations) in your Student Answer Booklet.
If you do the work in your head, explain in writing how you did the work.

Refer to the following information for the next three questions.

The illustration below shows a container of water on an electric hot plate. Point A is in the water close to the hot plate, and point B is in the water near the top of the container.

Electric hot plate The water in the container is at room temperature before the hot plate is turned on.

a. Describe the differences in the average motion of the water molecules at point A and at point B shortly after the hot plate is turned on.

b. The water is heated until a thermometer placed in the center of the container reaches 100°C. Compare the average motion of the water molecules at points A and B at this temperature and explain your answer.

c. The hot plate is then turned off. Describe the average motion of the molecules at points A and B after several hours.

Refer to the following information for the next three questions.

The map below represents the area near the origin of an earthquake.

Earthquakes generate several different kinds of waves. Longitudinal waves are called “P” waves, and transverse waves are called “S” waves. The “P” waves have a greater velocity than the “S” waves. An earthquake occurs and these waves travel to point A.

a. Which type of wave is first to reach point A?

b. Describe the expected movement of the ground due to the “P” waves and explain your reasoning.

c. Describe the expected movement of the ground when the “S” waves reach point A, and explain your reasoning.

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