A curious look at electrolysis
After reading the quotes below which I got from another forum, I ask these questions ~~~~~
"Non-integer-frequency crystals will work well, as long as the crystal's frequency is between the microcontroller's maximum and minimum crystal frequencies. The non-integer frequencies exist to ease generation of frequencies needed in particular applications. 3.2768 MHz = 100 * 32768 Hz and 6.144 MHz can be divided to generate baud rates for an RS-232 serial port."
"6.144 MHz = 6144 kHz = 5 * 1228.8 kHz. Most serial ports need a clock at 16 times the baud rate. For 76800 baud, this is 16 * 76.8 kHz = 1228.8 kHz. Lower baud rates (except 110 baud) are 76800 baud divided by a power of two: 38400 baud, 19200 baud, 9600 baud, 4800 baud, 2400 baud, 1200 baud, 600 baud, 300 baud. For 115200 baud (pioneered by the original IBM PC), 115.2 kHz * 16 = 1843.2 kHz = 1.5 * 1228.8 kHz."
~~~~Can the separation of the water molecule as in electrolysis be caused by a unique DC frequency and if so can this frequency be duplicated?
~~~~ Is there a way to automatically monitor the water molecule reactions to varying frequency changes? When a change occurs, the change is recorded like noting a blip or spike in the frequency flow?
After reading the quotes below which I got from another forum, I ask these questions ~~~~~
"Non-integer-frequency crystals will work well, as long as the crystal's frequency is between the microcontroller's maximum and minimum crystal frequencies. The non-integer frequencies exist to ease generation of frequencies needed in particular applications. 3.2768 MHz = 100 * 32768 Hz and 6.144 MHz can be divided to generate baud rates for an RS-232 serial port."
"6.144 MHz = 6144 kHz = 5 * 1228.8 kHz. Most serial ports need a clock at 16 times the baud rate. For 76800 baud, this is 16 * 76.8 kHz = 1228.8 kHz. Lower baud rates (except 110 baud) are 76800 baud divided by a power of two: 38400 baud, 19200 baud, 9600 baud, 4800 baud, 2400 baud, 1200 baud, 600 baud, 300 baud. For 115200 baud (pioneered by the original IBM PC), 115.2 kHz * 16 = 1843.2 kHz = 1.5 * 1228.8 kHz."
~~~~Can the separation of the water molecule as in electrolysis be caused by a unique DC frequency and if so can this frequency be duplicated?
~~~~ Is there a way to automatically monitor the water molecule reactions to varying frequency changes? When a change occurs, the change is recorded like noting a blip or spike in the frequency flow?
