Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

Record a sound at 10^-500 of an attobel in mono. Convert the analog
signal to digital PCM channel (still mono). This digital PCM signal
should remain mono and should have a sampling rate of 10^500 samples
every attosecond, and a bit-resolution of 10^1,000-gigabit. This
high-quality mono PCM signal should be split into 100^10,000 different
audio channels, this will reduce the loudness immeasureably. This
100^10,000 channelled, 10^500 sampled per attosecond, 10^1,000 gigabit
PCM signal should be converted to WMA. As the conversion occurs, the
WMA information should have the following characteristics:

1. Sampling rate of 10^500 samples every attosecond
2. 100^10,000 different audio channels
3. Bit rate of 10^-10,000 of a byte every 10^10,000 years

This WMA audio should be amplified using a software WMA amplifier. It
should be amplified from 10^-500 of an attobel to 20 decibels.

BAD SENSE OF BALANCE OCCURS!

You figure TEN postings of the same message in the same thread got your point
across??? Or are you prone to stuttering?

Jeff

(UnionPac2001) wrote in message >...
> You figure TEN postings of the same message in the same thread got your point
> across??? Or are you prone to stuttering?
>
> Jeff


Accident. Sorry.