I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
If I'm not mistaken, batteries in series (a column, end-to-end) combine their output (i.e. eight 1.5 v batteries in series = one 12 v battery), while batteries in parallel (a row, side-by-side) do not (i.e. eight 1.5 v batteries in parallel = one 1.5 v battery that lasts a long time). So you would need eight columns of four batteries, not four columns of eight.
I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
"220 ... 221, whatever works!" - ?anybody?
I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
"220 ... 221, whatever works!" - ?anybody?
No takers? there's a 5er on it!
edited to add: mmnurtch is autoDQ
Only found it because of Google... I saw the movie, but can't remember the meaning behind it...No takers?"220 ... 221, whatever works!" - ?anybody?
I am not the electrician, but I am going to do some ciphering to guess.
32 batteries totaling 48 volts combined to form one battery of 6 volts. 32 batteries individually total 48 volts, but 8 batteries in a sequential circuit would still only produce 1.5 volts (I think, here may be the flaw in my logic).
So if I take the 32 batteries and make 4 columns of 8 batteries per column, then I get 1.5 volts per column for a cumulative output of 6 volts, not accounting for any energy lost in transmission, as each column would only be able to produce 1.5 volts, and the size of the column determine battery life.
Now I defer to the electrician.
Cparker
"220 ... 221, whatever works!" - ?anybody?
No takers? there's a 5er on it!
edited to add: mmnurtch is autoDQ
Now is that a 5er of AA batteries? :whistling:
Only found it because of Google... I saw the movie, but can't remember the meaning behind it...No takers?"220 ... 221, whatever works!" - ?anybody?
Michael Keaton in Mr. Mom (1983)
Only found it because of Google... I saw the movie, but can't remember the meaning behind it...No takers?"220 ... 221, whatever works!" - ?anybody?
Michael Keaton in Mr. Mom (1983)
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