Study Guide

Field 035: Physics
Sample Multiple-Choice Questions

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The following reference material will be available to you during the assessment:

Competency 0001
Understand principles and procedures of scientific inquiry.

Data for the variables x and y are collected during an experiment and given in the table below.

x 5.0 10.0 15.0 20.0 25.0 30.0
y 0.05 0.19 0.32 0.47 0.61 0.75

Which of the following best describes the relationship between x and y?

  1. constant
  2. linear
  3. inverse
  4. quadratic
Answer
Correct Response: B.
This question requires the examinee to analyze scientific data. The x-values of the data in the table increase in increments of 5, that is, Δx = 5. The y-values increase in increments of 0.14, 0.13, 0.15, 0.14, and 0.14, respectively. Hence, the ratio is approximately constant and the relationship is best described as being linear.
Competency 0002
Understand the history of science, its connections with other sciences, and the relationships among science, technology, and society.

Which of the following best describes how the invention of X-ray diffraction in physics contributed to the biological and chemical sciences?

  1. by generating clear images of bacteria and viruses
  2. by determining the structure of molecules
  3. by discovering missing elements in the periodic table
  4. by producing disease-resistant plant varieties
Answer
Correct Response: B.
This question requires the examinee to demonstrate knowledge of how science and technology affect each other. Because the wavelength of X-rays is of the same order as the size of molecules, X-ray diffraction allows scientists to infer structural properties of substances, such as DNA, by analyzing the patterns produced by the waves as they are diffracted from the substance.
Competency 0003
Understand motion in one and two dimensions.

A ball at rest on level ground is kicked into the air. The ball strikes the ground 4.00 s later at a horizontal distance of 40.0 m from where it was kicked. What is the magnitude of the initial velocity of the ball?

  1. 10.0 m/s
  2. 19.6 m/s
  3. 22.0 m/s
  4. 40.5 m/s
Answer
Correct Response: C.
This question requires the examinee to apply properties of vectors to analyze projectile motion. Since the ball travels a horizontal distance of 40.0 m in 4.00 s, the horizontal component of its initial velocity is 10.0 m/s. The ball is in flight for a total of 4.00 s, so it reaches its maximum height in 2.00 s. Using the equation v(t) = –9.8t + v0y and v(2.00) = 0.00 gives v0y = 19.6 m/s. The magnitude of the initial velocity is therefore v0 = = 22.0 m/s.
Competency 0004
Understand forces as interactions and their effects on motion.

A rope with a tension of 10.0 N is attached to a 2.00 kg mass. The rope makes an angle of 30.0° with the horizontal.

What is the normal force on the mass?

  1. 5.0 N
  2. 9.8 N
  3. 14.6 N
  4. 19.6 N
Answer
Correct Response: C.
This question requires the examinee to solve problems involving force and motion. There are three forces acting on the mass in the y-direction: the gravitational force, the normal force, and the vertical component of the tension in the string. The normal force is perpendicular to the surface of the mass and in the positive y-direction. From Newton's second law, ∑F = ma applied in the y-direction,Fy = 0 = –mg + N + T sin 30°. Using g = 9.80 m/s2, substituting the values given, and solving for the normal force gives N = 14.6 N.
Competency 0005
Understand the conservation of energy and linear momentum.

A mass initially at rest at a height of 6r slides down a frictionless track and around a circular loop of radius r.

What is the speed of the mass at the top of the circular loop (point A)?




Answer
Correct Response: D.
This question requires the examinee to apply the work-energy theorem to conservative systems. Since there are no frictional forces, the work done by friction is zero and the total mechanical energy is conserved. Therefore, mg(6r) = mv2 + mg(2r). Solving this equation for v gives v = .
Competency 0006
Understand simple harmonic motion and rotational dynamics.

A mass on a spring is displaced from equilibrium and released. The graph below shows the velocity of the mass versus time.

Which statement about the mass at time b must be true?

  1. It is located at its equilibrium position.
  2. Its potential energy is equal to zero.
  3. Its kinetic energy is at a maximum.
  4. Its acceleration is at a maximum.
Answer
Correct Response: D.
This question requires the examinee to use graphs of trigonometric functions to analyze characteristics of simple harmonic motion. The graph shows the velocity of a mass oscillating on a spring. At point b the velocity is zero, so the mass is at one of its turning points and the displacement of the mass, x, is either A or −A, where A is the amplitude of motion. Since the slope of the line tangent to the curve at b is positive, the acceleration is positive, so x = –A. Since F = ma = –kx, the force, and therefore the acceleration, is maximum when x = –A.
Competency 0007
Understand properties of the electric field.

Three identical point charges are located on the vertices of an equilateral triangle of side length s.

What is the vertical component of the electrostatic force on the charge located on vertex P?

  1. sin 30°

  2. cos 30°

  3. sin 30°

  4. cos 30°
Answer
Correct Response: D.
This question requires the examinee to describe an electric force for a simple charge distribution. From Coulomb's law, the magnitude of the force on q from the left-most charge on the base of the triangle is F = , and the component in the vertical direction is cos θ, where θ = 30°. This force points in the positive y-direction. The same applies for the force from the right-most charge. The net force is the superposition of the two forces, which is F = cos 30°.
Competency 0008
Understand properties of the magnetic field and electromagnetic induction.

A wire that carries conventional current I in the direction shown is in a magnetic field that points into the plane of the page.

Which arrow shows the direction of the force on the wire?





Answer
Correct Response: C.
This question requires the examinee to analyze the magnetic force on a moving charge in a magnetic field. The diagram shows a magnetic field that points into the page. The wire carries conventional current, which implies positive charges moving toward the top of the page. Since F = I × B and represents the direction of the conventional current I, the right-hand rule can be used to cross v into B. This shows that the force on the wire points to the left, as shown in response C.
Competency 0009
Understand properties of electric circuits.

A resistor is connected in series across the terminals of an ideal battery of voltage V. The resistor dissipates power W from the battery. A second, identical resistor is connected in series with the first resistor. What is the total power dissipated by the two resistors?

  2. W
  3. 2W
  4. 4W
Answer
Correct Response: A.
This question requires the examinee to analyze an electric circuit in terms of energy or power. The power dissipated by the resistor in the circuit is given by P = IV = W, where I is the current through the resistor. When a second resistor is added to the circuit, the effective resistance doubles. Since the voltage of the battery is the same, the current is I. Since there are two identical resistors in the circuit, the voltage across each is V and the power dissipated by each is P = W. Therefore, the total power dissipated is P = W.
Competency 0010
Understand the fundamental properties of waves.

A person standing 85 m from a wall shouts and hears the echo 0.50 s later. The person then plays a note of 440 Hz on a flute. What is the wavelength of the note in air?

  1. 0.39 m
  2. 0.77 m
  3. 1.3 m
  4. 2.6 m
Answer
Correct Response: B.
This question requires the examinee to solve a problem involving wave speed, frequency, and wavelength. Since the person hears the echo of the shout after 0.50 s, the speed of sound is 170 m/0.50 s or 340 m/s. Since v = fλ, the wavelength is λ = 0.77 m.
Competency 0011
Understand the characteristics of light and electromagnetic radiation.

A light-emitting diode (LED) on a consumer device emits 0.020 W of light of wavelength λ = 650 × 10−9 m. Which of the following expressions equals the number of photons emitted by the LED per second in terms of Planck's constant (h) and the speed of light (c)?







Answer
Correct Response: A.
This question requires the examinee to describe various phenomena using the photon model of light. The energy of a single photon is given by E = hf. For light, c = fλ, so E = . Since the power of the LED is 0.020 W, dividing the power by the energy of a single photon gives the number of photons emitted per second.
Competency 0012
Understand thermal energy and the kinetic theory of matter.

A closed, insulated vessel consists of a paddle wheel immersed in 0.50 kg of water at room temperature. The shaft of the paddle wheel is attached to a motor that has an output of 25 W. The paddle wheel rotates, churning the water.

Disregarding the heat capacity of the vessel and paddle, what is the change in temperature of the water if the motor is run for 5.0 minutes?

  1. 0.03°C
  2. 1.0°C
  3. 1.8°C
  4. 3.6°C
Answer
Correct Response: D.
This question requires the examinee to solve a problem related to specific heat and the first law of thermodynamics. The first law of thermodynamics states that ΔE = ΔQW, where W is the work done by the system. Since the vessel is insulated, ΔQ = 0. Therefore, ΔE = W, since work is done on the system as the paddle wheel churns the water. Therefore, cwmwΔT = (25 W)(5 min)(60 s/min). Using the value cw = 4.19 × 103 J/(kg·°C) given in the Constants and Formulas and solving gives ΔT = 3.6°C.
Competency 0013
Understand fundamental ideas of modern physics.

Electrons from an electron gun pass through a double slit before striking a screen. A counter records the number of electrons that arrive at the screen as a function of x, the position along the screen. The distribution of the number of electrons arriving is shown below.

According to the principles of quantum mechanics, the distribution pattern shown is a result of:

  1. electrons interfering due to their wave properties.
  2. electrons striking the edges of the slits while passing through.
  3. photons interacting with each other on either side of the slits.
  4. electrons interacting with photons prior to arriving at the screen.
Answer
Correct Response: A.
This question requires the examinee to demonstrate knowledge of the wave-particle duality. In the double-slit experiment shown, the distribution of the number of electrons arriving on the screen at various positions is a result of interference. Interference is a consequence of the wave properties of electrons.
Competency 0014
Understand the fundamental principles of nuclear physics.

If X represents an atomic nucleus prior to gamma decay, which of the following represents the nucleus after gamma decay?







Answer
Correct Response: A.
This question requires the examinee to apply knowledge of radioactive decay processes. Gamma rays are electromagnetic waves, or photons, emitted as the nucleus of an atom transitions from a higher energy state to a lower energy state. Hence, the number and type of nucleons in the nucleus does not change.