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 ISC Specimen 2011 Physics Paper 1 (Theory)

   9 pages, 60 questions, 25 questions with responses, 25 total responses

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PHYSICS Paper – 1 (THEORY) (Three hours) (Candidates are allowed additional 15 minutes for only reading the paper. They must NOT start writing during this time) ---------------------------------------------------Answer all questions in Part I and six questions from Part II, choosing two questions from each of the Sections A, B and C. All working, including rough work, should be done on the same sheet as, and adjacent to, the rest of the answer. The intended marks for questions or parts of questions are given in brackets [ ]. (Material to be supplied: Log tables including Trigonometric functions) A list of useful physical constants is given at the end of this paper. ------------------------------------------------------------------------------------------------------------------------------PART I Answer all questions Question 1 [5] A. Answer all questions by choosing the correct option A, B, C or D. (i) Three identical point charges, each of Q Coulomb, are kept at the three vertices of an equilateral triangle having each side = a. [See figure 1]. Electro-static potential energy of the system is: Q Q Q a Figure 1 (A) 1 Q2 4π ∈0 a (B) 1 3Q 2 4π ∈0 a (C) 1 3Q 2 4π ∈0 a 2 (D) 1 Q2 4π ∈0 a 2 ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 17

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(ii) Four cells E1 , E2 , E3 and E4 are connected as shown in Figure 2. Emf of the battery so formed is: E1 + E2 E3 2V 2V 2V - E4 6V Figure 2 (A) 6V (B) 12V (C) 4V (D) Zero (iii) A 50 Ω non-inductive resistor is connected to a source which generates an emf e which is given by e = 200 Sin (120 π t) Volt. Peak value of current flowing through the resistor is: (A) 0.25 A (B) 2.5 A (C) 4.0 A (D) 4 2 A (iv) A thin converging lens of focal length 25 cm is kept in contact with a thin diverging lens of focal length 20 cm. Focal length of the combination is: (A) + 100 cm (B) -100 cm (C) 45 cm (D) 5 cm (v) Photo electric threshold wavelength of a certain metal is 198 nm. Its work function is: (A) 1× 10−18 J (B) 1× 10−19 J (C) 1× 10−16 J B. Answer all questions briefly and to the point: (D) 1× 10−17 J [15] (i) An oil drop weighing 1 × 10-15 N and carrying a charge of 8 × 10-19 C is found to remain at rest in a uniform electric field of intensity ‘E’. Find ‘E’. (ii) Which conservation principle is involved in Kirchoff’s second law? (iii) State any one difference between Joule effect and Peltier’s effect. ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 18

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(iv) Two thin, infinitely long conductors, X and Y, carrying currents I1 and I2 are kept parallel to each other, at a distance ‘a’, in vacuum [See figure 3]. I1 X a Y I2 Figure 3 How much force acts on a 1m span of wire Y due to current flowing through X? (v) Alternating current I flowing through a device lags behind the potential difference V across it by 90° or π 2 radian. Is this electrical device a resistor, an inductor or a capacitor? (vi) An electro magnetic wave has a frequency of 1 MHz. On which part of the electro magnetic spectrum does this wave lie? (vii) What kind of source produces a cylindrical wave front? (viii) Plot a labelled graph showing variation of relative intensity with respect to distance, in a single slit diffraction experiment. (ix) State any one method by which chromatic aberration produced by a convex lens can be minimized. (x) Give any one reason why giant telescopes all over the world are of reflecting type. (xi) Figure 4 below is a graph showing variation of relative intensity I of X rays Vs its wavelength λ , when X ray tube is operated at a tube potential of 20 KV. I λm λ Figure 4 Redraw this graph in your answer book and on same axes, draw another such graph when tube potential is raised to 30 KV. ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 19

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(xii) Write down the relation between mean life τ of a radioactive substance and its half life T½ . (xiii) According to the modern view, matter and energy are inter-convertible. Give one example where energy is converted to matter. (xvi) Draw graphs to show input and output voltages of an ideal amplifier. (xv) Write down the truth table of a NAND gate. PART II Answer six questions in this part, choosing two questions from each of the Sections A, B and C. SECTION A (Answer any two questions) Question 2 (a) Figure 5 (a) below shows a parallel plate air capacitor whose capacitance is 2 µ F. [4] M A A A ∈r=10 I I R R d t R N 4 cm 4 cm Figure 5 (a) I Figure 5 (b) A dielectric slab MN of thickness t = 2 cm and having dielectric constant (relative permittivity) = 10 is now introduced between the two plates (See figure 5 (b)) Find the new capacitance of the system. (b) Using Gauss’ Theorem, calculate intensity of electric field at a point at a radial distance of 3 cm from an infinite line charge having linear charge density of 5 × 10-6 Cm-1. [2] (Statement of Gauss’ Theorem or derivation not required). (c) What is meant by temperature coefficient of resistance? Write down Ohm’s Law in vector form, stating the meaning of every symbol used. [3] ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 20

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Question 3 (a) Draw a labelled diagram of a balanced Wheat Stone bridge. Using either Ohm’s Law or Kirchoffs’ Laws, obtain the relation between four resistors forming the bridge. [3] (b) Figure 6 below shows a potentiometer circuit. When the jockey is pressed on the slide wire AB at a point C such that AC = 2.9m, the galvanometer ‘G’ shows no deflection. Find the emf of the cell X. [3] 4V, 2Ω 10Ω R D 5m, 20 Ω C A B G X Figure 6 [Slide wire AB is 5m long and has a resistance of 20Ω.] (c) Figure 7 below shows three resistors: R1 = 10Ω , R2 = 20Ω and R3 = 90Ω. When a current I enters the circuit, heating power developed in R1 is found to be 90 W. Calculate the heating power developed in R3 . A [3] R2 R1 B I I C R3 D Figure 7 ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 21

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Question 4 (a) Using Ampere’s circuital law, obtain an expression for magnetic flux density ‘B’ at a point ‘P’near an infinitely long straight conductor carrying a current ‘I’. [3] (b) [3] (c) Show graphically how a d.c current flowing through an LR circuit varies with time when the key is put (i) on (ii) off. What is meant by time constant of an LR circuit ? A( 25 π 2 ) µ F capacitor ‘C’ and a 50 Ω resistor ‘R’ are connected in series to a 220V, [3] 50Hz a.c supply. It is desired to have a current of 2A in phase with supply voltage. Find the value/s of additional component/s to be connected in series with C and R. SECTION B (Answer any two questions) Question 5 (a) Which electro-magnetic wave is longer than a light wave but shorter than a micro-wave? How can it be detected? Name only one detector. [2] (b) In Young’s double slit experiment, what is the effect of the following changes on the interference pattern: [3] (i) (ii) One of the slits is covered with a thin mica sheet. (iii) (c) Distance between the two slits is decreased. Monochromatic light is replaced by white light. Ordinary light i.e. unpolarized light is incident on a glass slab (refractive index = 1.6) at a polarizing angle θ p as shown in figure 8 below. [3] R1 θp GLASS R2 Figure 8 (i) Find the value of angle θ p. (ii) What is the angle between the reflected ray R1 and the refracted ray R2 ? (iii) What is the difference between the incident light and the reflected light, as far as their electric vectors are concerned? ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 22

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Question 6 (a) An air bubble ‘A’ is trapped inside a glass sphere of radius CP = 10 cm at a distance of 4.0 cm from its centre ‘C’. Where does it appear to an observer O (See figure 9) who is looking at it along the diameter from the side to which it is nearest? [3] (Refractive Index of glass = 1.5) C A P Observer GLASS (µ = 15) AIR Figure 9 (b) A beam of light converges to a point X. A convex lens of focal length 30 cm is now introduced in its path in order to intercept the rays, at a distance of 30 cm from X. The rays of light now meet at a point Y. Draw the ray diagram showing the position of X & Y and calculate the distance XY. [3] (c) What are Fraunhoffer lines? Explain how they are formed. [2] Question 7 (a) Explain the statement: “Angular magnification of an astronomical telescope in normal adjustment is 20”. What is meant by resolving power of a telescope? [3] (b) Draw a labelled ray diagram of an image formed by a Compound Microscope in normal use. Write down an expression for its magnifying power in terms of focal lengths of the two lenses used. [3] (c) When a narrow and parallel beam of monochromatic light is incident normally on a rectangular slit of width 1 × 10-6m, angular width of central maxima in the diffracted light was found to be 60°. Find the wave length of the incident light. [2] ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 23

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SECTION C (Answer any two questions from the following) Question 8 (a) In Millikan’s oil drop experiment, charge q on an oil drop is given by q= [3] K V1 (V1 -V2 ) . E (i) What is the difference between V1 and V2? (ii) What is meant by the term: “Quantisation of charge”? (b) When UV radiation of wavelength 198.0 nm is incident on a Caesium photo cell, a negative potential difference of 4.2V has to be applied to just cut off the photo-current. Calculate threshold frequency for metal Caesium. [3] (c) (i) [2] (ii) Find angular momentum of an electron in Bohr’s III orbit. What is the radius of IIIrd orbit of an electron in hydrogen atom? Question 9 (a) Explain the terms: (i) (i) In Nuclear Physics, what is the use of a cyclotron ? In a nuclear reactor, what is the function of a moderator ? (i) State Mosley’s Law. (ii) What is a neutrino? (iii) (c) Binding energy of a nucleus. (ii) (b) Mass defect. (ii) [2] Half life of a certain radio active element is 6 hours. If you start with 32g of this element, how much of it would disintegrate in one day? [2] [4] ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 24

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Question 10 (a) Draw labelled energy band diagram for each of the following: (i) A semi-conductor. (ii) [3] An insulator. (iii) A good conductor. (b) Draw a labelled circuit diagram of a full wave rectifier using two junction diodes. You must show clearly where input voltage is applied and where output voltage is taken. [3] (c) Show how an OR gate can be obtained using NAND gates. [2] USEFUL CONSTANTS 1. Speed of light in vacuum : c = 3 × 108 ms-1 2. Planck’s constant : h = 6.6 × 10-34 Js 3. Constant of proportionality for Coulomb’s Law : = 9 × 109 mF-1 4. Bohr radius : aο = 5.3 × 10-11m 5. Charge of a proton : e = 1.6 × 10-19C 6. Constant of proportionality for Biot Savart Law : µο 4π = 10-7 Hm-1 1 4πε ο ------------------------------------------------------------------------------------------------------------------------------ISC Specimen Question Paper 25

 

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