Practice Final Exam - General Physics | PHYS 2002, Study notes of Physics

Practice Final Exam Material Type: Notes; Professor: Young; Class: GENERAL PHYSICS; Subject: Physics; University: Louisiana State University; Term: Spring 2011;

Typology: Study notes

2010/2011

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Physics 2002 Spring 2002
Louisiana State University Dept. of Physics & Astronomy
1
PHYSICS 2002
Practice Final - 1
Instructions:
a. Print your name and student number below, then sign your name as it appears on your
LSU I.D. card.
b. Print and bubble in your name (LAST NAME FIRST), student number, and section
number on the scantron provided.
c. When you hand in your paper, be sure to put it in the stack labeled with YOUR
INSTRUCTOR's NAME, AND THE CORRECT EXAM FORM.
PRINT NAME: KEY
STUDENT NUMBER:
SIGNATURE:
SECTION: ____
INSTRUCTOR: __________
Section 1, 8:40 – 9:30 MWF, Young
Section 2, 1:40 – 2:30 MWF, Johnson
Section 3, 7:40 – 9:00 TTh, Goodrich
Section 4 1:40 – 3:00 TTh, Slovak
Throughout this test, directions (left, right, up, down, in, out) are referenced to the plane
of the page.
Good luck and have a great summer!
pf3
pf4
pf5

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Physics 2002 Spring 2002 1

PHYSICS 2002

Practice Final - 1

Instructions:

a. Print your name and student number below, then sign your name as it appears on your LSU I.D. card.

b. Print and bubble in your name (LAST NAME FIRST), student number, and section number on the scantron provided.

c. When you hand in your paper, be sure to put it in the stack labeled with YOUR INSTRUCTOR's NAME, AND THE CORRECT EXAM FORM.

PRINT NAME: KEY

STUDENT NUMBER:

SIGNATURE:

SECTION: ____

INSTRUCTOR: __________

Section 1, 8:40 – 9:30 MWF, Young Section 2, 1:40 – 2:30 MWF, Johnson Section 3, 7:40 – 9:00 TTh, Goodrich Section 4 1:40 – 3:00 TTh, Slovak

Throughout this test, directions (left, right, up, down, in, out) are referenced to the plane of the page.

Good luck and have a great summer!

Physics 2002 Spring 2002 2

  1. An electron is held fixed at a distance of 1 m from the nucleus of a uranium atom (Z = 92). If the electron is then released, what is the magnitude of its initial acceleration?

a) 9.8 m/s 2 b) 1250 m/s 2 c) 20,000 m/s 2 d) 23,300 m/s 2 e) 46,000 m/s 2

  1. The third Balmer line (Hγ) is seen in emission when an excited hydrogen (H) atom has an electron move from the 5th^ energy level (E 5 = -0.54 eV) to the 3 rd^ level (E 3 = -3. eV). What is the wavelength λ of this line? a) 410.1 nm b) 434.7 nm c) 486.1 nm d) 656.3 nm
  2. A current of 2 A is maintained in a simple circuit with a total resistance of 2 Ω. How much heat is generated in 3 seconds?

a) 96 J b) 24 J c) 12 J d) 6 J e) 3 J

  1. A circuit including 4 resistors is connected to a battery as shown. What is the equivalent resistance of the circuit?

a) 1.2 Ω b) 5.7 Ω

c) 11.2 Ω d) 9.2 Ω

  1. In the problem above, if V = 12 volts, how much power is dissipated in each of the 5 Ω resistors?

a) 1.2 W b) 6.8 W c) 4.6 W d) 3.5 W e) 5.7 W

  1. An electron is accelerated from rest through a potential difference of 17,000 volts. What is the final velocity of the electron?

a) 2.44 x 10 7 m/s b) 2.96 x 10^7 m/s c) 5.14 x 10 7 m/s d) 7.73 x 10 7 m/s

  1. An electron is accelerated from rest through a potential of 100 V. What is its deBroglie wavelength? a) 0.034 nm b) 0.123 nm c) 0.382 nm d) 0.973 nm

5 Ω

3 Ω

2 Ω

5 Ω

V

Physics 2002 Spring 2002 4

  1. Current in a power line runs from south to north. At a point directly below the power line, what is the direction of the magnetic field created by this current? a) south b) east c) west d) up e) down
  2. A convex lens (a converging lens) has a focal length of 20.0 cm. If it is used to view an object at an infinite distance away, what is the image distance?

a) +0.10 m b) +0.20 m c) -0.20 m d) –0.10 m e) none of these

  1. Cobalt-60 ( 60 Co) is often used as a radiation source in medical applications. It has a half-life of 5.25 years. If a patient is injected with a 0.52 μg sample of 60 Co, how much of it will be in their system after 2.11 years? a) 0.14 μg b) 0.26 μg c) 0.39 μ g d) 0.46 μg
  2. Four identical looking faceted gemstones are claimed to be diamonds. A smart buyer knows that the critical angle inside a diamond (with air surrounding it) is 24.4 degrees, smaller than all other hard transparent substances. She aims a laser carefully into each gem so that it strikes the gem-air interface as shown at an angle of 28.0 degrees. Which one is the diamond? (The dashed line is the normal at the gem-air interface.)

a) b) c) d)

Questions 15 - 17. A candle of height 2.3 cm is placed 10.0 cm to the left of a concave lens of with a focal point that is 6.5 cm from the lens.

  1. The image formed by the lens is best described by which of the following? a) real, to the left of the lens, magnified b) virtual, erect, magnified c) real, inverted, reduced d) virtual, to the left of the lens, reduced
  2. The image distance is ___________________. a) -3.94 cm b) +18.57 cm c) +3.94 cm d) -18.57 cm
  3. The magnification m is __________________. a) –3.94 b) -0.394 c) +3.94 d) +0.

Physics 2002 Spring 2002 5

  1. A particle carrying a charge of – 4.5 μC, initially moving horizontally, enters a region of space between the plates of a parallel plate capacitor which are separated by a distance of 5 x 10-4^ m (see figure). A potential difference, V = 17,500 volts is applied across the plates. If the particle follows the path shown, which plate is at a higher potential, and what is the magnitude of the electrostatic force that acts on the particle?

a) upper plate, 158 N b) lower plate, 158 N c) upper plate, 0.08 N d) lower plate, 0.08 N e) upper plate, 8.8 N

  1. A photon of energy E = 6.4 x 10 -19^ J gives ALL of its energy to an electron in a metal so that the photoelectron leaves with 1.1 eV of kinetic energy. What is the work function Wo of the metal? a) 2.9 eV b) 1.3 eV c) 0.65 eV d) 0.17 eV
  2. A tungsten (W) target is bombarded by electrons accelerated through a potential of 60 kV. What is the cutoff wavelength of the X-rays emitted from the target? a) 2.07 x 10-11^ m b) 2.07 x 10 -8^ m c) 2.07 x 10 -6^ m d) 2.07 x 10 -4^ m
  3. Two straight wires parallel to each other carry currents of I 1 = 2.0 A and I 2 = 3.0 A in opposite directions. The wires are separated by a distance of 0.35 m.

Left Right

I 1 I (^2)

0.35 m

What is the direction and magnitude of the force per meter acting on wire 2? a) 3.43 x 10 -6^ N/m, left b) 3.43 x 10 -6^ N/m, right c) 2.45 x 10 -6^ N/m, left d)2.45 x 10 -6^ N/m, left

  1. If the ionization energy for hydrogen (H) is –13.6 eV, what is the energy of the level with principal quantum number n = 3? a) –13.6 eV b) –0.89 eV c) –1.51 eV d) –4.56 eV
  2. The electron in the hydrogen (H) atom can be viewed as orbiting the nucleus (a proton) in circular orbits of increasing radii. What is the radius of the third electron orbit? a) 0.356 nm b) 0.478 nm c) 0.875 nm d) 0.973 nm

V

particle 5 x 10 -^4 m