Phys102 Term: 103 First Major- July 16, 2011
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1 Q1. A stretched string has a length of.00 m and a mass of 3.40 g. A transverse sinusoidal wave is travelling on this string, and is given by y (x, t) = sin (0.75 x 16 t), where x and y are in meters, and t is in seconds. What is the magnitude of the tension in this string? y = y m sin(kx ωt) y m = 0.03 m, k = 0.75m 1, ω = 16Hz v = τ μ τ = v μ (1) v = ω k = = 186 m s μ = m = = kg/m L Putting values of v and μ in Eq(1) τ = (186) = N 48N Q. The average power of a sinusoidal wave on a stretched string is P. If an identical wave is sent simultaneously along the same string in the same direction but with a phase difference of 90 o from the first wave, the new average power is Ans P = 1 μvω y m P = 1 μvω y m (1) y m = y m cos ( φ ) at φ = 90 y m = y m () Putting Eq() into Eq(1) we get: P = 1 μvω y m P = 1 μvω y m P = P KFUPM-Physics Department 1
2 Q3. For a standing wave on a string fixed at both ends AN AN The midpoint is an antinode for odd harmonics. Q4. A string that is stretched between fixed supports oscillates in a third-harmonic standing wave pattern. The displacement of the wave is given by y(x,t) = (0.10) sin (πx/5) cos (1πt), where x and y are in meters, and t is in seconds. What is the length of the string? Ans λ λ λ 3 rd harmonics L L = 3λ From given equation we get: k = π 5 π λ = π 5 L = 3λ = 3 10 = 15 m λ = 10 m Q5. A string that is stretched between fixed supports has resonant frequencies of 385 and 430 Hz, with no intermediate resonant frequencies. What is the frequency of the seventh harmonic? f n = nf 1 = 385 Hz and f n+1 = (n + 1)f 1 = 430 Hz f n+1 f n = (n + 1)f 1 nf 1 = f 1 = = 45 Hz The frequency of the seventh harmonic f 7 = 7 f 1 = 7 45 = 315 Hz KFUPM-Physics Department
3 Q6. If the intensity of a sound wave traveling in air with constant frequency is doubled, then Velocity of sound is fixed in given medium; doesn t depend on intensity. Q7. Two speakers, separated by.00 m, face each other as shown in Figure 1. They are driven by the same generator, and emit sound waves with a frequency of 170 Hz, that are initially in phase. A listener is initially at point A, which is at the midpoint between the two speakers. What is the shortest distance he should move to find a point of destructive interference? [Take the speed of sound to be 340 m/s] Fig#1 Maximum intensity at A. Next minimum will be (λ/4) distance away from A d = λ 4 = 1 4 v f = = m 170 Q8. A tube open at both ends has length L A. A tube open only at one end has length L B. If the two tubes have the same fundamental frequency, then Tube B L B = λ 4 λ = 4L B Tube A L A = λ same fundamental frequency = same fundamental wave length L A = 4L B = L B KFUPM-Physics Department 3
4 Q9. A police car, moving at 0.0 m/s, emits a sound wave with a frequency of 300 Hz. Find the wavelength of the sound wave in front of the car, as shown in Figure. [Take the speed of sound in air to be 340 m/s] Fig# Q10. λ = v f = 340 f f v 340 = f = 300 v v s = 319Hz λ = v f = = 1.07m The melting point of sulfur is C and is F below its boiling point. Determine the boiling point of sulfur in degrees Celsius. BP = MP + C = C C 100 = F 180 C = F C = 5 9 F Q11. C = = BP = MP + C = = 770. C An iron tank is completely filled with.80 m 3 of water when both the tank and the water are at a temperature of 3.0 C. When the tank and the water have cooled to 18.0 C, what additional volume of water can be put into the tank? [α iron = / C, β water = / C ] V I = V oi V B T = (18 3) = m 3 V ω = V oi V ω T = (18 3) = m 3 V odd = V I V ω = = m 3 KFUPM-Physics Department 4
5 Q1. A 100-g ice cube at 0.0 C is placed in 650 g of water at 18 C. If the system is isolated, what is the final temperature? m i L f + m i C ω (T 0) = m ω C ω (18 T) Q13. T = m ωc ω (18) m i L f = = 5 m i C ω +m ω C ω A copper rod has a length of 60 cm. One end is maintained at 80 C and the other end is at 0 C. In steady state, what is the temperature of the rod at a point which is 0 cm from the hot end? [k copper = 401 W/m.K] 80 T 0 0cm 60cm 40cm KA(80 T) 0 = 160 T = T 0 3T = 180 T = 60 KA(T 0) 40 Q14. A 5 moles of an ideal gas expand isobarically from T i = 5 C to T f = 75 C. Calculate the work done by the gas during this process. W = P V = nr T = (75 5) J Q15. An ideal gas has a density of 3.75 kg/m 3 and is at a pressure of 1.00 atm. Determine the rms speed of the molecules of this gas. v rms = 3RT M = 3PV M = 3P ρ = = 8.4 m 3.75 s KFUPM-Physics Department 5
6 Q16. An ideal monatomic gas is taken through cycle A B C A, shown in the p-v diagram of Figure 3, where process B C is isothermal. Calculate the net work done in one cycle. Fig#3 W net = W AB + W BC + W CA = P V + nrt ln V C V B + 0 = P(V B V A ) + PV ln V C V B = ( ) ln W net = 4088 J = 4088J, on the gas. Q17. One mole of an ideal monatomic gas is initially at a pressure of Pa, a temperature of 300 K, and has a volume of 1.00 L. It is compressed adiabatically to a volume of L. Calculate the magnitude of the work done during this process. W = E = 3 nr T = (T f T i ) T i V γ 1 γ 1 i = T f V f T f = T i V γ 1 i 1 = 300 V f W = KJ KFUPM-Physics Department 6
7 Q18. A system consists of two large thermal reservoirs in contact with each other, one at a temperature of 300 C and the other at a temperature 00 C. If 600 J of heat is transferred from the 300 C reservoir to the 00 C reservoir, what is the change in entropy of this system? S = S S 1 = Q T Q T 1 = = 0.1 J/K Q19. A Carnot refrigerator is operated between two heat reservoirs at temperatures of 30 K and 70 K. In each cycle, the refrigerator extracts 415 J of heat from the cold reservoir. If the refrigerator completes 165 cycles each minute, what is the power input required to operate it? P = W t = W 60 K = Q L W T L = Q L T H T L W W = Q L (T H T L ) (30 70) = T L 70 P = W t = (30 70) = 11 watt KFUPM-Physics Department 7
8 Q0. Which of the processes on an ideal gas shown in Figure 4 results in the minimum change in entropy of the gas in changing the gas from state S to State F? Fig#4 Entropy is a state function and only depends on the initial and final positions not in the path. KFUPM-Physics Department 8
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