作者 eddy1021 (eddy) 看板 NTU-Exam
標題 [試題] 103-2 李慶德 普通物理學甲下 第三次小考
時間 Wed Jun 17 23:15:21 2015
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課程名稱︰普通物理學甲下
課程性質︰大一必修
課程教師︰李慶德
開課學院:電資學院
開課系所︰電機工程學系
考試日期(年月日)︰2015/06/16
考試時限(分鐘):50 分鐘
試題 :
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General Physics A(2015 spring) Quiz 3
1. Faraday's law states that an induced emf is proportional to:
(A) the rate of change of the magnetic field
(B) the rate of change of the electric field
(C) the rate of change of the magnetic flux
(D) the rate of change of the electric flux
(E) zero
2. A rod lies across frictionless rails in an uniform magnetic field B, as
shown. The rod moves to the right with speed v. In order for the emf around
the circuit to be zero, the magnitude of the magnetic field should:
Fig:
(A) not change
(B) increase linearly with time
(C) decrease linearly with time
(D) increase quadractically with time
(E) decrease quadractically with time
3. A changing magnetic field pierces the interior of a circuit containing three
identical resistors. Two voltmeters are connected as shown, V1 reads 1 mV
across R. V2 reads the voltage across the other two resistors, which is:
Fig:
(A) 0 V
(B) 1/3 mV
(C) 1/2 mV
(D) 1 mV
(E) 2 mV
4. The diagram shows a circular loop of wire that rotates at a steady rate
about a diameter O that is perpendicular to a uniform magnetic field. The
maximum induced emf occurs when the point X on the loop passes:
Fig:
(A) a (B) b (C) c (D) d (E) e
5. A long straight wire is in the plane of a rectangular conducting loop. The
straight wire carries a constant i, as shown. While the wire is being moved
toward the loop, the current in the loop is:
Fig:
(A) zero
(B) clockwise
(C) counterclockwise
(D) clockwise in the left side and counterclockwise in the right side
(E) counterclockwise in the left side and clockwise in the right side
6. Consider the mechinical system consisting of two strings and a block, as
shown. Which one of the five eletrical circuit(I, II, III, IV, V) in the
analog of the mechanical system?
Fig:
(A) I (B) II (C) III (D) IV (E) V
7. An LC series circuit with an inductance L and capacitance C has an
oscillation frequency f. If we now take two of those inductors, each with
inductance L, and two of the capacitors, each with capacitance C, and wire
them all in series to make a new circuit, its oscillation frequency will be:
(A) f/4 (B) f/2 (C) f (D) 2f (E) 4f
8. An RLC circuit has a resistance of 200 Ω and an inductance of 15 mH. Its
oscillation frequency is 7000 Hz. At time t = 0 the current is 25 mA and
there is no charge on the capacitor. After five complete cycles the current
is:
(A) 0 A
(B) 1.8 x 10^(-6) A
(C) 2.1 x 10^(-4) A
(D) 2.3 x 10^(-3) A
(E) 2.5 x 10^(-2) A
9. An RLC series circuit has R = 4Ω, Xc = 3Ω, and XL = 6Ω. The impedance of
this circuit is:
(A) 5 Ω
(B) 7 Ω
(C) 7.8 Ω
(D) 9.8 Ω
(E) 13 Ω
10. In a sinusoidally driven series RLC circuit the current lags the applied
emf. The rate at which energy is dissipated in the resistor can be increased
by:
(A) decreasing the capacitance and making no other changes
(B) increasing the capacitance and making no other changes
(C) increasing the inductance and making no other changes
(D) increasing the driving frequency and making no other changes
(E) decreasing the amplitude of the driving emf and making no other changes
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