2015 Physics WAEC SSCE (School Candidates) May/June: Difference between revisions

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             <li>N</li> </ol>
             <li>N</li> </ol>
     </li>
     </li>
     <li>The barometric reading at a place is 73.5 cmHg. Calculate the  pressure at a point 30m above the surface of water contained in a reservoir at the place. [g=10ms-2 density of mercury =1.3 x 104 kgm-3, density of water = 1.0 x 103 kgm-3]
     <li>The barometric reading at a place is 73.5 cmHg. Calculate the  pressure at a point 30m above the surface of water contained in a reservoir at the place. [g=<math>10ms^-2</math>density of mercury =<math>1.3x 10^{4}Kgm^-3</math>, density of water = <math>1.0x10^{4}Kgm^-3</math>]
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li><math>4.0 x 10^{5}Nm^-2</math></li>
             <li>Option b</li>
             <li><math>3.0 x10^{5}Nm^-2</math></li>
             <li>Option c</li>
             <li><math>2.0 x10^{5}Nm^-2</math></li>
             <li>Option d</li>
             <li><math>1.0 x 10^{5}Nm^-2</math></li> </ol>
        </ol>
     </li>
     </li>
     <li>An object floats in  liquid when it displaces its
     <li>An object floats in  liquid when it displaces its
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         </ol>
         </ol>
     </li>
     </li>
     <li>A body is projected with an initial velocity u at an angle xx to the horizontal. The time taken by it to reach its maximum height is given by the expression
     <li>A body is projected with an initial velocity u at an angle θ to the horizontal. The time taken by it to reach its maximum height is given by the expression
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li><math>\frac{2u sin \theta}{g}</math></li>
             <li>Option b</li>
             <li><math>\frac{u^2 sin^2 \theta}{2g}</math></li>
             <li>Option c</li>
             <li><math>\frac{u sin \theta}{g}</math></li>
             <li>Option d</li>
             <li><math>\frac{u sin \theta}{2g}</math></li> </ol>
        </ol>
     </li>
     </li>
     <li>Which of the following statements describes a body in a stable equilibrium correctly?
     <li>Which of the following statements describes a body in a stable equilibrium correctly?
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             <li>70m</li> </ol>
             <li>70m</li> </ol>
     </li>
     </li>
     <li>Question 11
     <li>Two strings each inclined at an angle of 30° to the horizontal are used to hold a bucket of water weighing 20 N. Calculate the tension in each string.
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li><math>20 \surd3 N</math></li>
             <li>Option b</li>
             <li>20 N</li>
             <li>Option c</li>
             <li><math>10 \surd3 N</math></li>
             <li>Option d</li>
             <li>10 N</li> </ol>
        </ol>
     </li>
     </li>
     <li>Question 12
     <li>A bullet fired vertically upwards reaches a height of 500 m. Neglecting air resistance, calculate the magnitude of the initial velocity of the bullet. [g=<math>10ms^-2</math>]
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li><math>500ms^-1</math></li>
             <li>Option b</li>
             <li><math>100ms^-1</math></li>
             <li>Option c</li>
             <li><math>70ms^-1</math></li>
             <li>Option d</li>
             <li><math>50ms^-1 </math></li>
         </ol>
         </ol>
     </li>
     </li>
     <li>Question 13
     <li>A uniform bar AB is balanced on a  knife-edge which is 60cm from B by a mass of 22 g which hangs at C 10cm from A as illustrated in the diagram above.  calculate the mass of the bar.
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>133.2 g</li>
             <li>Option b</li>
             <li>66.0 g</li>
             <li>Option c</li>
             <li>60.0 g</li>
             <li>Option d</li>
             <li>22.0 g</li> </ol>
        </ol>
     </li>
     </li>
     <li>Question 14
     <li>A body of 6 mass 1000 kg is released from a height of 10m above the ground. Determine its kinetic energy just before it strikes the ground. [g=<math>10ms^-2</math>]
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>10 J</li>
             <li>Option b</li>
             <li><math>10^3</math> J</li>
             <li>Option c</li>
             <li><math>10^4</math> J</li>
             <li>Option d</li>
             <li><math>10^5</math> J</li> </ol>
        </ol>
     </li>
     </li>
     <li>Question 15
     <li>The diagrams below illustrate four test-tubes containing the same volume of a liquid at different pressures. In which of the test-tubes does the liquid boil last if they are supplied with the same quantity of heat?
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>Option a</li>
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         </ol>
         </ol>
     </li>
     </li>
     <li>Question 16
     <li>The crackling noise produced by aluminum roofing sheets on a house during a hot sunny day is as a result of
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>thermal equilibrium of the sheets.</li>
             <li>Option b</li>
             <li>conduction of heat by the sheets.</li>
             <li>Option c</li>
             <li>contraction of the sheets.</li>
             <li>Option d</li>
             <li>expansion of the sheets.</li>
         </ol>
         </ol>
     </li>
     </li>
     <li>Question 17
     <li>Water is unsuitable for use as a thermometric liquid because it
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>expands unevenly between 0°C and 4°C.</li>
             <li>Option b</li>
             <li>has a narrow temperature range.</li>
             <li>Option c</li>
             <li>has a concave meniscus.</li>
             <li>Option d</li>
             <li>maintains a fixed density.</li>
         </ol>
         </ol>
     </li>
     </li>
     <li>Question 18
     <li>The diagram above illustrates a block and tackle pulley system in which an effort E supports a load of 100.0 N. If the efficiency of the machine is 75%, calculate the value of E.
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>22.2 N.</li>
             <li>Option b</li>
             <li>38.0N.</li>
             <li>Option c</li>
             <li>67.0 N.</li>
             <li>Option d</li>
             <li>75.0.N.</li>
         </ol>
         </ol>
     </li>
     </li>
     <li>Question 19
     <li>A quantity of hot water at 100°C is added to 400 g of water at 10°C until the temperature of the mixture is 60°C. Calculate the mass of the hot water added. [Specific heat capacity of water= <math>4200 Jkg^-1K^-1</math>]
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>200g.</li>
             <li>Option b</li>
             <li>320g.</li>
             <li>Option c</li>
             <li>400g</li>
             <li>Option d</li>
             <li>500g.</li>
         </ol>
         </ol>
     </li>
     </li>
     <li>Question 20
     <li>In an experiment in which a molten substance is allowed to cool, the cooling curve shown above was obtained. The temperature 60°C is known as the
         <ol type="a">
         <ol type="a">
             <li>Option a</li>
             <li>vaporization point.</li>
             <li>Option b</li>
             <li>cooling temperature.</li>
             <li>Option c</li>
             <li>boiling point.</li>
             <li>Option d</li>
             <li>melting point.</li>
         </ol>
         </ol>
     </li>
     </li>

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Physics 1 - Objective Test Questions

  1. Which of the following statements about mass and weight are correct? I Weight is the force of gravity on a body II The mass of a body is the greatest quantity of matter in the body III The weight of a body is greatest at the equator IV The mass of a body is greatest at the poles
    1. I and II only
    2. I and III only
    3. II and IV only
    4. III and IV only
  2. Materials that can be stretched and still return to heir original form when the stresses are removed are said to be
    1. elastic
    2. elastomer
    3. plastic
    4. thermoplastic
  3. Which of the following units is derived?
    1. kg
    2. m
    3. K
    4. N
  4. The barometric reading at a place is 73.5 cmHg. Calculate the pressure at a point 30m above the surface of water contained in a reservoir at the place. [g=Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10ms^-2} density of mercury =Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 1.3x 10^{4}Kgm^-3} , density of water = Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 1.0x10^{4}Kgm^-3} ]
    1. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 4.0 x 10^{5}Nm^-2}
    2. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 3.0 x10^{5}Nm^-2}
    3. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 2.0 x10^{5}Nm^-2}
    4. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 1.0 x 10^{5}Nm^-2}
  5. An object floats in liquid when it displaces its
    1. volume of fluid in which it floats
    2. mass of fluid in which it floats
    3. weight of fluid in which it floats
    4. density of fluid in which it floats
  6. The resultant force in a couple is
    1. zero
    2. infinite
    3. the sum of the forces
    4. the product of the forces.
  7. The slope of a velocity-time graph represents
    1. uniform acceleration
    2. uniform speed.
    3. total distance travelled.
    4. work done.
  8. A body is projected with an initial velocity u at an angle θ to the horizontal. The time taken by it to reach its maximum height is given by the expression
    1. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \frac{2u sin \theta}{g}}
    2. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \frac{u^2 sin^2 \theta}{2g}}
    3. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \frac{u sin \theta}{g}}
    4. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle \frac{u sin \theta}{2g}}
  9. Which of the following statements describes a body in a stable equilibrium correctly?
    1. person walking on a tight-rope.
    2. ball on a smooth horizontal table.
    3. ball resting on an inverted hemispherical bowl.
    4. ball in the middle of a hemispherical bowl
  10. Ina school compound, a girl walks 40 m due east from the laboratory to the staff room to submit her report. Then she turns and walks 30 m due north to her classroom. Determine the magnitude of her displacement from the laboratory.
    1. 10m
    2. 35m
    3. 50m
    4. 70m
  11. Two strings each inclined at an angle of 30° to the horizontal are used to hold a bucket of water weighing 20 N. Calculate the tension in each string.
    1. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 20 \surd3 N}
    2. 20 N
    3. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10 \surd3 N}
    4. 10 N
  12. A bullet fired vertically upwards reaches a height of 500 m. Neglecting air resistance, calculate the magnitude of the initial velocity of the bullet. [g=Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10ms^-2} ]
    1. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 500ms^-1}
    2. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 100ms^-1}
    3. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 70ms^-1}
    4. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 50ms^-1 }
  13. A uniform bar AB is balanced on a knife-edge which is 60cm from B by a mass of 22 g which hangs at C 10cm from A as illustrated in the diagram above. calculate the mass of the bar.
    1. 133.2 g
    2. 66.0 g
    3. 60.0 g
    4. 22.0 g
  14. A body of 6 mass 1000 kg is released from a height of 10m above the ground. Determine its kinetic energy just before it strikes the ground. [g=Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10ms^-2} ]
    1. 10 J
    2. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10^3} J
    3. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10^4} J
    4. Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 10^5} J
  15. The diagrams below illustrate four test-tubes containing the same volume of a liquid at different pressures. In which of the test-tubes does the liquid boil last if they are supplied with the same quantity of heat?
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  16. The crackling noise produced by aluminum roofing sheets on a house during a hot sunny day is as a result of
    1. thermal equilibrium of the sheets.
    2. conduction of heat by the sheets.
    3. contraction of the sheets.
    4. expansion of the sheets.
  17. Water is unsuitable for use as a thermometric liquid because it
    1. expands unevenly between 0°C and 4°C.
    2. has a narrow temperature range.
    3. has a concave meniscus.
    4. maintains a fixed density.
  18. The diagram above illustrates a block and tackle pulley system in which an effort E supports a load of 100.0 N. If the efficiency of the machine is 75%, calculate the value of E.
    1. 22.2 N.
    2. 38.0N.
    3. 67.0 N.
    4. 75.0.N.
  19. A quantity of hot water at 100°C is added to 400 g of water at 10°C until the temperature of the mixture is 60°C. Calculate the mass of the hot water added. [Specific heat capacity of water= Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle 4200 Jkg^-1K^-1} ]
    1. 200g.
    2. 320g.
    3. 400g
    4. 500g.
  20. In an experiment in which a molten substance is allowed to cool, the cooling curve shown above was obtained. The temperature 60°C is known as the
    1. vaporization point.
    2. cooling temperature.
    3. boiling point.
    4. melting point.
  21. Question 21
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  22. Question 22
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  23. Question 23
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  24. Question 24
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  25. Question 25
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  26. Question 26
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  27. Question 27
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  28. Question 28
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  29. Question 29
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  30. Question 30
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  31. Question 31
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  32. Question 32
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  33. Question 33
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  34. Question 34
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  35. Question 35
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  36. Question 36
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  37. Question 37
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  38. Question 38
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  39. Question 39
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  40. Question 40
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  41. Question 41
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  42. Question 42
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  43. Question 43
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  44. Question 44
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  45. Question 45
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  46. Question 46
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  47. Question 47
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  48. Question 48
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  49. Question 49
    1. Option a
    2. Option b
    3. Option c
    4. Option d
  50. Question 50
    1. Option a
    2. Option b
    3. Option c
    4. Option d

Biology 2 - Theory Questions

Part 1

  1. Question 1
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  2. Question 2
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  3. Question 3
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  4. Question 4
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  5. Question 5
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  6. Question 6
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  7. Question 7
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v

Part 2

  1. Question 8
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  2. Question 9
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  3. Question 10
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  4. Question 11
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  5. Question 12
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v

Physics 3 - Practical Questions

Alternative A

  1. Question 1
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  2. Question 2
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
  3. Question 3
    1. Sub-question a
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    2. Sub-question b
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    3. Sub-question c
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    4. Sub-question d
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    5. Sub-question e
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
    6. Sub-question f
      1. Sub-question i
      2. Sub-question ii
      3. Sub-question iii
      4. Sub-question iv
      5. Sub-question v
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