作者gavin79115 (冠子)
看板NTU-Exam
标题[试题] 97上 赵治宇 普通物理学甲上 期末考
时间Thu Jan 15 15:22:52 2009
课程名称︰普通物理学甲上
课程性质︰共同必修
课程教师︰赵治宇
开课学院:工学院
开课系所︰化工系
考试日期(年月日)︰98.1.15
考试时限(分钟):2小时40分
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(如未明确表示,则不予发放)
试题 :
General Physics
Final Exam
2009/1/15 Instructor:Prof. CY Chao
1.Figure 1 shows an uniform solid cylinder of mass
M, Radius
R, and length
L.
What is the rotational inertia about the central diameter axis? Derive it in
detail. (10%)
2.Figure 2 is a gyroscope consists of a wheel foxed to a shaft. Plese derive
the precession rate of this device where the mass of the wheel is
M (the mass
of the shaft is ignored), the angular speed is
ω, the rotational inertia
about its shaft is
I and the distance between the center of the wheel and
the tip O is
r. (10%)
3.Please derive the gravitational force between an uniform spherical sheel
with total mass
M and a particle with mass
m witch is outside the shell. The
distance between the particle and the center of the sphere shell is
r.
(do it by integration) (10%)
4.Figure 3 shows a dampeed oscillator with a block (mass
m), a spring (spring
constant
k) and damping constant
b between vane and liquid. The rod extending
from block to the vane (assume massless) is also assumed massless. When the
block start oscillating, a dragging force is generated and is proportional to
the vane's velocity. (a) Write down the equation of motion of the system and
solve it in terms of x(t). What are the frequency, the amplitude, and the
mechanical energy of this damping system? (b) Draw a graph of the equation of
motion, and denote the features on it. (6%,4%)
5. In fig. 4, an aluminum wire, of length L1 = 60.0cm, cross-sectional area
1.00×10^(-2)cm^2, and density 2.60g/cm^3, is joined to a steel wire, of
density 7.80g/cm^3 and the same cross-sectional area. The compound wire, load
with a block of mass m = 10kg, is arranged so that the distance L2 from the
joint to the supporting pulley is 86.6cm. Transverse waves are set up on the
wire by an external source of variable freqyency; a node is located at the
pulley. (a) Find the lowest frequency that penerates a standing wave the joint
as one of the nodes. (b)How many nodes are observed at this frequency?
(6%, 4%)
6. Two trains are traveling toward each other at 30.5m/s relativeto the ground
. One train is blowing a whistle at 500 Hz. (a) What frequency is heard on the
other train in still air? (b) What frequency is heard in the ither train if
the wind is blowing at 30.5m/s toward the whistle and away from the listener?
(4%, 6%)
老师後来有补充 声速是343m/s
7. Figure 5 shows the cross section of a wall made of three layers. The
thickness of the layers are L1, L2 = 0.700 L1, and L3 = 0.350 L1. The thermal
conductivities are k1, k2 = 0.900 k1, and k3 = 0.800 k1. The temperatures at
the left and right sides of the wall are TH = 30.0度C and TC = -15度C,
respectively. Themal conduction is steady. (a) What is the temperature
difference ΔT2 across layer 2 (between the left and right sides of the layer)?
If k2 were, insteadn equal to 1.1k1, (b) would the rate at which energy is
conducted through the wall be greater than, less than, or the same as previous,
and (c) what would be the value of ΔT2? (4%,3%,3%)
8.Show that the relation between the pressure and the volume during an
adiabetic expansion of ideal gas is
γ
ρV^ = constan
where γ = CP/CV (10%)
9. A system with a container which is filled with an unknown gas of molar mass
M is maintained at temperature
T. Please derive the average speed (
Vavg) of the
gas molecules. The probability distribution function is
2
(3/2) 2 (-Mυ^ /2RT)
P(υ) = 4π(M/2πRT)^ υ^ e^
∞ (-t) (z-1)
(You may need this: ∫ e^ t^ dt = (z-1)! ) (10%)
0
10. Derive the vhange in entropy when n mole of an ideal gas doubles its volume
in a free wxpansion. (you
should derive the result by using statistical
mechanics) (10%)
老师後来说将should 改成must 一定要用统计力学来解XD
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