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Power In Circuit

You can easily calculate the Power of Load in circuit based on Current(I) and Load (R)parameters

You can easily calculate the Power of Load in circuit based on Current(I) and Load (R)parameters

Power In Circuit

by Guangdong Xianda
Power In Circuit
Power In Circuit
Power In Circuit

What is it about?

You can easily calculate the Power of Load in circuit based on Current(I) and Load (R)parameters.This Circuit has a great significance in our daily life.You can also analyze the voltage and energy consumed in load.This circuit has solved in ideal conditions with ohms Law.Electrical Appliances use Power as a general parameter and we must know its relationship with voltage.So for this reason we hav solved a simplest for of load circuit in this app.This app is a fantastic education learning tool to learn voltage and power in terms of Volts and Watts.

Power In Circuit

App Details

Version
1.0
Rating
NA
Size
16Mb
Genre
Education
Last updated
August 26, 2020
Release date
August 26, 2020
More info

App Screenshots

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Power In Circuit screenshot-1
Power In Circuit screenshot-2
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App Store Description

You can easily calculate the Power of Load in circuit based on Current(I) and Load (R)parameters.This Circuit has a great significance in our daily life.You can also analyze the voltage and energy consumed in load.This circuit has solved in ideal conditions with ohms Law.Electrical Appliances use Power as a general parameter and we must know its relationship with voltage.So for this reason we hav solved a simplest for of load circuit in this app.This app is a fantastic education learning tool to learn voltage and power in terms of Volts and Watts.

When calculating the power dissipation of resistive components, use any one of the three power equations to derive the answer from values of voltage, current, and/or resistance pertaining to each component:

power equations

This is easily managed by adding another row to our familiar table of voltages, currents, and resistances:

voltage current resistance table

Power for any particular table column can be found by the appropriate Ohm’s Law equation (appropriate based on what figures are present for E, I, and R in that column).

An interesting rule for total power versus individual power is that it is additive for any configuration of the circuit: series, parallel, series/parallel, or otherwise. Power is a measure of the rate of work, and since power dissipated must equal the total power applied by the source(s) (as per the Law of Conservation of Energy in physics), circuit configuration has no effect on the mathematics.

REVIEW:

Power is additive in any configuration of resistive circuit: PTotal = P1 + P2 + . . . Pn



References:

- G. S. Ohm (1827). Die galvanische Kette, mathematisch bearbeitet (PDF). Berlin: T. H. Riemann. Archived from the original (PDF) on 2009-03-26.
- Davies, B, "A web of naked fancies?", Physics Education 15 57–61, Institute of Physics, Issue 1, Jan 1980 [1]
- Hart, IB, Makers of Science, London, Oxford University Press, 1923. p. 243. [2]
- Herbert Schnädelbach, Philosophy in Germany 1831–1933, pp. 78–79, Cambridge University Press, 1984 ISBN 0521296463.

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