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(i) By changing pressure very slowly or by allowing gas to go to original temperature after the change
(ii) k represents work done on the gas.
(iii) - Use dry gas
- Make very small changes in temperature.
johnmulu answered the question on May 29, 2017 at 05:58
- Figure 6 shows a simple set up for pressure law apparatus. (Solved)
Figure 6 shows a simple set up for pressure law apparatus.
Describe how the apparatus may be used to verify pressure law.
Date posted: May 29, 2017. Answers (1)
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Figure 7 shows an experiment set-up that may be used to investigate one of the laws. The glass tube has a uniform bore and it is graduated in millimeters.
(i) Describe how the experiment is carried out and explain how the results obtained verify the law.
(ii) State two limitations of the set-up.
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Figure 5 shows a set up that ,a set up that may be used to verify Charles' law.
(i) State the measurements that should be taken in the experiment.
(ii) What is the purpose of the water bath?
Date posted: May 29, 2017. Answers (1)
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Fig. 2 shows a set-up that may be used to verify Boyle's law.
Describe the measurements that should be taken in the experiment.
Date posted: May 27, 2017. Answers (1)
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Figure 8 shows a graph of the variation of temperature with time for a pure substance heated at a constant rate.
Assuming that heat transfer to the surroundings is negligible, state the changes observed on the substance in region:
(a) BC;
(b) DE
Date posted: May 27, 2017. Answers (1)
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Figure 8 shows a set-up of apparatus set in an experiment to determine the specific latent of fusion of ice.
The following reading was noted after the heater was switched on for 5 minutes:
- mass of beaker = 130g
- mass of beaker + melted ice = 190 g
(i) Determine the:
(I) Energy supplied by the 60 W heater in the 5 minutes.
(II) Specific latent heat of fusion of ice.
(ii) It was observed that some of the crushed ice melted even before the heater was switched on. State a reason for this observation.
Date posted: May 27, 2017. Answers (1)
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Figure 4 shows a graph of temperature against time when pure melting ice at 0oC is heated uniformly.
Explain what happens between parts:
(i) OA
(ii) AB
Date posted: May 27, 2017. Answers (1)
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You are provided with the apparatus shown in fig. 9 and a stop watch.
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Date posted: May 27, 2017. Answers (1)
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Figure 11 shows the features of a domestic refrigerator. A volatile liquid circulates through the capillary tubes under the action of the compression pump.
(i) State the reaction for using a volatile liquid.
(ii) what is the purpose of double wall?
Date posted: May 27, 2017. Answers (1)
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Fig. 11 shows the variation of temperature,$\theta$, with time t,when an immersion heater is used to heat certain liquid. Study the figure and answer question.
State the reason for the shape of graph in the section labeled BC
Date posted: May 27, 2017. Answers (1)
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(Solved)
Figure 5 shows the variation of temperature, T (oC), with time, t (seconds) when frozen sea water is heated for some time.
(i) Explain the shape of the curve at the parts labeled A, B and C.
(ii) It is observed that when the temperature starts to rise, the volume initially decreases and then increases. State the reason for this observation.
Date posted: May 27, 2017. Answers (1)
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Figure 3 shows two aluminium containers, A and B placed on a wooden table. A and B have equal volumes of hot water initially at the same temperature.
Explain why the water in B cools faster than the water in A.
Date posted: May 27, 2017. Answers (1)
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Figure 9, shows a circuit that may be used to charge a capacitor.
(i) State the observation on the milliameter when the circuit is switched on.
(ii) Explain the observation in (i) above.
Date posted: May 27, 2017. Answers (1)
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Figure 5 shows the circuit used to charge a capacitor C.
State what would be observed on the following when the switch is closed:
(I) The milliammeter;
(II) The voltmeter;
Date posted: May 27, 2017. Answers (1)
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(Solved)
Figure 7 shows capacitors A and B connected in series with a battery of e.m.f 4 V
Determine:
(i) The effective capacitance of the circuit.
(ii) The quantity of charge in capacitor A.
Date posted: May 27, 2017. Answers (1)
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Figure 3 shows a voltmeter connected across two charged parallel plates.
When a thin sheet of mica is inserted between the plates, the voltmeter reading is observed to reduce. Explain this observation.
Date posted: May 27, 2017. Answers (1)
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Figure 8, shows a circuit that may be used to charge a capacitor.
(i) State the observation on the milliammmeter when the circuit is switched on.
(ii) Explain the observation in (i) above.
Date posted: May 27, 2017. Answers (1)
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Figure 7 shows a pair of parallel plates of a capacitor connected to a battery. The upper plates is displaced slightly to the left.
State with reason the effect of this movement on the capacitance.
Date posted: May 27, 2017. Answers (1)
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The capacitors in the circuit in Figure 14 are identical and initially uncharged.
Switch S1 is closed while switch S2 remains open. After sometimes, switch S1 is opened and switch S2 closed. Determine the final reading of the voltmeter, V.
Date posted: May 26, 2017. Answers (1)
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Figure 20 shows three capacitors connected between two points A and B.
Determine the capacitance across AB.
Date posted: May 26, 2017. Answers (1)