Physics 25 Final Examination Fall 2010 Dr. Alward

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Physics 25 Final Examination Fall 2010 Dr. Alward 1. The activity of carbon-14 in a sample of charcoal from an archaeological site is 0.07 Bq. Determine the approximate age (in years) of the sample. The half-life of carbon-14 is 5730 years, and the activity of C-14 from live organism is 0.23 Bq. A) 9800 B) 12500 C) 14500 D) 16500 E) 18500 2. How many neutrons will remain in the nucleus C-14 nucleus after emits a photon? A) 15 B) 13 C) 14 D) 12 3. The car in the drawing is moving to the left at 35 m/s. The car's horn continuously emits a 220 Hz sound. The figure also shows the first two regions of compression of the emitted sound waves. The speed of sound is 343 m/s. What is the approximate frequency heard by an observer in front of the car, racing toward it to the right at 50 m/s? A) 108 Hz B) 176 Hz C) 200 Hz D) 281 Hz

4. The mass of a uniform 400-m long cylindrical metal rod is 1508 kg. The radius of the circular cross-section of the rod is 0.02 m. The Young's modulus of this metal is 2.1 x 10 10 N/m 2. If both ends of this rod are clamped, what is the lowest frequency (in Hz) of vibration that will create a standing wave along the rod? A) 6.5 B) 5.7 C) 3.3 D) 8.5 5. What is the third-lowest possible frequency of vibration in a 3.2 m pipe closed at one end, open at the other? The speed of sound is 343 m/s. A) B) C) 154 D) 178 6. A guitar string produces four beats/s when sounded with a 250 Hz tuning fork and three beats per second when sounded with a 257 Hz tuning fork. What is the vibrational frequency of the string? A) 240 Hz B) 266 Hz C) 258 Hz D) 262 Hz 7. A string with a linear density of 0.035 kg/m and a mass of 0.014 kg is clamped at both ends. Under approximately what tension in the string will it have a fundamental frequency (lowest frequency) of 220 Hz? A) 270 N B) 650 N C) 450 N D) 1080 N

8. A proton (q = 1.6 x 10-19 C) is located at x = 0 on the x-axis. What is the magnitude of the electric potential difference (in volts) due to this proton between the points x = 2 nm and x = 1 nm? (Note: 1 nm = 1 x 10-9 m) A) 0.56 B) 1.24 C) 0.72 D) 3.41 9. A positive point charge q 1 = 3e is a distance a from a negative point charge q 2 = -5e, where e is the charge on a proton. How far from q 1 may a third point charge be placed without that charge experiencing a net electric force? Give your answer as a multiple of the distance a. Note: the quadratic formula will be needed here: x = [-b + (b 2-4ac) 1/2 ] /2a A) 1.35 a B) 2.02 a C) 3.44 a D) 4.11 a 10. An electric charged is pushed by a 1250 N force from A to B, against the electric field, as shown in the picture. If the distance from point A to point B is 0.50 m, what is the change in the charge's electric potential energy, in joules? A) 625 B) 875 C) 985 D) 420 11. If the magnitude of the electric field in the previous problem is 600 N/C, how much work is required to move a +150 C point charge from P to Q? A) 0.011 J B) 0.045 J C) 75.00 J D) 140.50 J

12. A 4-A current is maintained in a simple circuit with a total resistance of 2. If the cost of electrical energy is $0.12 per kilowatt-hour, about how much (in dollars) would it cost to maintain the current in this circuit for five months? A) 9 B) 14 C) 18 D) 33 13. The figure shows variation of the current in amperes through the heating element with time in an iron when it is plugged into a standard 120 V, 60 Hz outlet. What is the total resistance (in ohms) in this circuit? A) 16.97 B) 12.00 C) 14.14 D) 2.00 14. Four resistors and a 6-V battery are arranged as shown in the circuit diagram. Determine the current through the 20-ohm resistor. A) B) 0.10 A C) 0.50 A D) 0.20 A

15. The figure shows a simple RC circuit consisting of a 100-V battery in series with a 10.0-µF capacitor and a resistor. Initially, the switch S is open and the capacitor is uncharged. Two seconds after the switch is closed, the capacitor s charge is 500 micro-coulombs. What is the resistance of the resistor, in kilo-ohms? A) 865 B) 567 C) 435 D) 289 16. A proton is fired eastward along the Earth s equator. In which direction will it be deflected? A) upward B) downward C) northward D) southward 17. A ray of light propagates through glass (n = 1.51), and exits into a liquid. If the critical angle for total internal reflection is 65.2, determine the index of refraction of the liquid. A) 1.08 B) 1.21 C) 1.37 D) 1.28 18. Which one of the following statements is not a characteristic of a plane mirror? A) The image is real. B) The magnification is +1. C) The image is always upright. D) The image is reversed right to left. E) The image and object distances are equal in magnitude.

19. The focal point of a concave mirror is 4.0 m in front of the mirror. A woman stands 2.0 m in front of the mirror. What is the distance (in m) between the woman and her image? A) 2 B) 3 C) 4 D) 6 20. What must be the capacitance (in nano-farads) of an LC radio receiver circuit whose inductance is 0.33 micro-henry if it is tuned to an AM radio station emitting radio waves at a frequency of 2.00 x 10 6 Hz? A) 8.9 B) 11.8 C) 14.6 D) 19.2 21. A circular conducting loop of radius 7.0 cm contains 30 turns of wire and is positioned such that a uniform 1.40 T magnetic field makes an angle of 60 o with respect to the line that is normal to the plane of the loop. What will be the average induced voltage (emf) in the loop if the magnetic field increases to 3.40 T in 0.15 s? A) 0.42 V B) 0.75 V C) 0.87 V D) 6.16 V 22. A straight metal rod is dropped toward the ground at the equator. The rod is aligned along the east-west directions, parallel to the equator. Soon after the rod is dropped, what is the direction of the force on the rod exerted by the Earth s magnetic field? A) northward B) southward C) upward D) downward E) none of these 23. Light propagates from soda lime glass (n = 1.518) into Pyrex glass (n = 1.473). Determine the smallest angle of incidence onto the Pyrex glass that will cause all of the light to be reflected back into the soda lime glass. A) 13.99 B) 76.01 C) 52.48 D) 65.22

24. An object with a height of 6.0 cm is place in front of a concave lens. The focal point of the lens is 18 cm from the lens. The resulting upright image has a height of 2.0 cm. How far is the object from the lens? A) 7.5 cm B) 6.0 cm C) 36 cm D) 17 cm 25. A transparent polymer having an index of refraction of 1.45 is to be used to coat a glass plate with a thin film. The index of refraction of the glass is 1.60. What is the approximate minimum thickness (in nm) of film that will cause maximum reflection for light of wavelength 700 nm incident normally from the air onto the film? A) 219 B) 651 C) 632 D) 304 26. A rocket is designed to self-destruct soon after an explosive onboard is armed. The rocket is launched from Earth and accelerated to an unknown final speed. After reaching a final speed of 0.99 c, a clock onboard the rocket determines that the explosive detonates 3.50 seconds after it is armed. How many seconds after arming will observers on Earth say the explosion occurs? A) 12.33 B) 3.12 C) 4.55 D) 24.81 27. A nucleus having a mass of 3. 9746 4500 x 10-25 kg decays via gamma emission to a nucleus having a mass of 3. 9746 4317 x 10-25 kg. What is the wavelength of the gamma photon emitted, in nano-meters (nm)? A) 1.75 B) 20.54 C) 0.01 D) 4.03 28. A measurement of the speed of a proton (m = 1.67 x 10-27 kg) is determined to be between 4.99 m/s and 5.01 m/s, i.e., v = 5.00 ± 0.01 m/s. What is the approximate leastpossible uncertainty in the proton s location, in nanometers (nm), according to the Heisenberg Uncertainty principle? (Note: h = 6.63 x 10-34 J-s) A) 120 nm B) 830 nm C) 1340 nm D) 3160 nm

29. What frequency of light (in hertz) will cause electrons in the ground state (n=1) of hydrogen atoms to be excited to the n=2 level? A) 1.12 x 10 14 B) 8.97 x 10 14 C) 2.46 x 10 15 D) 5.82 x 10 15 30. What is the change in the decibel level when the sound intensity changes from 4 x 10-9 W/m 2 to 1.7 x 10-8 W/m 2? A) 6.06 B) 6.18 C) 6.28 D) 7.23 31. Light of what minimum frequency incident on a metal surface will cause some electrons to be emitted from the metal with a speed of about 1.19 x 10 6 m/s, given that the work function for the metal is 5.0 ev? A) 7.3 10 14 Hz B) 1.2 10 15 Hz C) 3.8 10 17 Hz D) 2.2 10 15 Hz 32. How many protons remain in the nucleus that is left when 145 61 first a beta particle, then an alpha particle? A) 59 B) 60 C) 61 D) 58 Pm decays by emitting 33. What is the frequency (in Hz) of the 0.059-MeV gamma-ray photon emitted by 31 14 Si? Note: 1 MeV = one million ev. A) 1.4 x 10-19 B) 1.7 10 17 C) 2.1 10 14 D) 4.8 10 15

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