A SIMPLE ELECTRIC HEATER, WHICH HAS EFFICIENCY GREATER THAN 1

[George1]

To Floor.
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Prof. S. L. Srivastava's solution is given below.
Prof. S. L. Srivastava's solution consists of two lines only.
LINE 1. Current through the electrolyte is given by I = (m)/(Z x t).
LINE 2. Power consumed = (I) x (I) x (R) =  ((m)/(Z x t)) x ((m)/(Z x t)) x (R) = 31.86 W.
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I am asking you (PERSONALLY!) my question for the 21th time: Is Prof. S. L. Srivastava's solution correct? Yes or no? Only one word -- either "yes" or "no"!
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All members of this forum are waiting for your PERSONAL(!) answer for the 21th time. Only one word -- either "yes" or "no"!

[George1]

To Floor.
-----------------------------------
Prof. S. L. Srivastava's solution is given below.
Prof. S. L. Srivastava's solution consists of two lines only.
LINE 1. Current through the electrolyte is given by I = (m)/(Z x t).
LINE 2. Power consumed = (I) x (I) x (R) =  ((m)/(Z x t)) x ((m)/(Z x t)) x (R) = 31.86 W.
-----------------------------------
I am asking you (PERSONALLY!) my question for the 22nd time: Is Prof. S. L. Srivastava's solution correct? Yes or no? Only one word -- either "yes" or "no"!
-----------------------------------
All members of this forum are waiting for your PERSONAL(!) answer for the 22nd time. Only one word -- either "yes" or "no"!

[George1]

To Floor.
-----------------------------------
Prof. S. L. Srivastava's solution is given below.
Prof. S. L. Srivastava's solution consists of two lines only.
LINE 1. Current through the electrolyte is given by I = (m)/(Z x t).
LINE 2. Power consumed = (I) x (I) x (R) =  ((m)/(Z x t)) x ((m)/(Z x t)) x (R) = 31.86 W.
-----------------------------------
I am asking you (PERSONALLY!) my question for the 23rd time: Is Prof. S. L. Srivastava's solution correct? Yes or no? Only one word -- either "yes" or "no"!
-----------------------------------
All members of this forum are waiting for your PERSONAL(!) answer for the 23rd time. Only one word -- either "yes" or "no"!

[George1]

To those members of good will in this forum, who are searching honestly for the truth.
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Ok, let us start from the very beginning. Please read carefully and thoroughly the text below.
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1) Let us consider a standard SOLID conductor. This could be for example a standard copper wire.
1A) A standard SOLID conductor is connected to a standard DC source thus forming a circuit.
1B) The circuit is equipped with a standard DC ammeter and with a standard DC ohmmeter.
1C) The ammeter registers a direct current, which is equal to 1A.
1D) The ohmmeter registers an Ohmic resistance, which is equal to 1Ohm.
1E) Each second the standard SOLID conductor consumes electric energy, which is equal to 1J, that is, (1A) x (1A) x (1Ohm) = 1J/s.
1F) Each second the standard SOLID conductor generates Joule's heat, which is equal to 1J, that is, (1A) x (1A) x (1Ohm) = 1J/s.
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2) Let us consider a standard LIQUID conductor (a standard electrolyte). This could be for example a zinc or copper sulphate solution or a sodium chloride (NaCl) solution (ordinary salty water) or whatever electrolyte you want. There are hundreds of standard ordinary electrolytes (LIQUID conductors).
2A) A standard LIQUID conductor is connected to a standard DC source thus forming a circuit.
2B) The circuit is equipped with a standard DC ammeter and with a standard DC ohmmeter.
2C) The ammeter registers a direct current, which is equal to 1A.
2D) The ohmmeter registers an Ohmic resistance, which is equal to 1Ohm.
2E) Each second the standard LIQUID conductor consumes electric energy, which is equal to 1J, that is, (1A) x (1A) x (1Ohm) = 1J/s.
2F) Each second the standard LIQUID conductor generates Joule's heat, which is equal to 1J, that is, (1A) x (1A) x (1Ohm) = 1J/s.
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3) In one word, the above two items 1 and 2 are an illustration of one of the basic axioms of electric engineering, which is given by the equality
A = I x I x R = B,
where
A = electric energy, which is consumed each second by the conductor
I = direct current, which flows through the conductor
R = Ohmic resistance of the conductor
B = Joule's heat, which is generated each second by the conductor
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4) Equality A = I x I x R = B is valid for any standard conductor (no matter solid, liquid or gaseous).
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5) Equality A = I x I x R = B can be found in any electric engineering beginner's guide/manual/textbook.
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6) But if the above mentioned axiom of electric engineering is not correct, then it's OK! Let us start creating then a new revolutionary branch of electric engineering with another basic axioms.
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Everything seems to be clear now, doesn't it? (But please ask questions, if any.)
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(to be continued)

[George1]

To Floor.
-----------------------------------
Prof. S. L. Srivastava's solution is given below.
Prof. S. L. Srivastava's solution consists of two lines only.
LINE 1. Current through the electrolyte is given by I = (m)/(Z x t).
LINE 2. Power consumed = (I) x (I) x (R) =  ((m)/(Z x t)) x ((m)/(Z x t)) x (R) = 31.86 W.
-----------------------------------
I am asking you (PERSONALLY!) my question for the 24th time: Is Prof. S. L. Srivastava's solution correct? Yes or no? Only one word -- either "yes" or "no"!
-----------------------------------
All members of this forum are waiting for your PERSONAL(!) answer for the 24th time. Only one word -- either "yes" or "no"!