If the average output of a solar thermal collector is 870 Watts, how long will it take (in minutes) for the collector to heat a 300 litre tankfrom 10° to50 ?Note: the Specific heat capacity of water is 4186 J/KgKAnswer:ageNext pageEVIOUS ACTIVITYorld Oil Production_Curve Fitting 09 10_20NEXT ACTIVITYHow PV cell produces electricityJump to...School LinksStaff Linksent LinksResults365Learnonline Course Request 2020-21 (StaffOnly)Learpopline ArchiveSchool of BusinessSchool of EngineeringSchoolef ScienceO Search for anything

Answered: If the average output of a solar…

College Physics

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ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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If the average output of a solar thermal collector is 870 Watts, how long will it take (in minutes) for the collector to heat a 300 litre tank
from 10° to50 ?
Note: the Specific heat capacity of water is 4186 J/KgK
Answer:
age
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orld Oil Production_Curve Fitting 09 10_20
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How PV cell produces electricity
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Expert Solution

Step 1

Output power of the solar thermal collector $P = 870 W$

Volume of water $V = 3000 L = 3 m^{3}$

The mass of water $m = Volume \times density = (3 m^{3}) (1000 kg / m^{3}) = 3000 kg$

Initial temperature of water $T_{1} = 10^{0} C = (10 + 273) K = 283 K$

Final temperature of water $T_{f} = 50^{0} C = (50 + 273) K = 323 K$

Specific heat capacity of water $C = 4186 J / kgK$

Step 2

The heat required to raise the water temperature from $T_{1} to T_{2}$ is $Q = mC (T_{f} - T_{i})$

$Q = (3000 kg) (4186 J / kgK) (323 K - 283 K) Q = 5.023 \times 10^{8} J$

The power is the rate of heat . $P = \frac{Q}{t}$

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If the average output of a solar thermal collector is 870 Watts, how long will it take (in minutes) for the collector to heat a 300 litre tank from 10° to 50°? Note: the Specific heat capacity of water is 4186 J/KgK