Welcome to program 164 of VOA Radiogram on the Voice of America.
I'm Kim Andrew Elliott in Washington.
On today's program we will experiment with three flavors of the
Olivia mode. The same VOA science story will be transmitted in
...
Olivia 64-2000
Olivia 32-1000
Olivia 16-500
All centered on 1500 Hz
These modes range from 20 to 30 words per minute.
For each mode, after the RSID is transmitted, there will be 10
seconds of silence to allow for a manual change of mode, if
necessary.
The VOA news story in the Olivia modes is "Boiling Water on Mars
Alters Its Landscape" by Rick Pantaleo in the VOA Science World
Blog, 6 May 2016,
http://bit.ly/23EKasGThis introduction and the closing announcements are in MFSK32.
Please send reception reports to radiogram@voanews.com.
And visit voaradiogram.net.
Twitter: @VOARadiogram
VOA Radiogram now changes to Olivia 64-2000 ...
fcN
Before RSID: <<2016-05-22T02:33Z MFSK-32 @ 100000+1499>>
This is VOA Radiogram in Olivia 64-2000
Boiling Water on Mars Alters Its Landscape
Back in late September 2015, NASA excited the science community
when NASA confirmed evidence of liquid water flowing on
present-day Mars.
Now, a new France-based study suggests that not only does liquid
water exist on Mars, it boils quite violently as soon as it
reaches the surface.
The liquid water on Mars was found to emerge only during the
warmest time of day during the Red Planets summer months.
Water at sea level here on Earth boils at 100C. But atmospheric
pressure also affects waters boiling point.
Since the atmosphere of Mars is so thin, it has only 0.6% of
Earths mean sea level air pressure, which means that water on
Mars can boil at a temperature as low as 0C.
VOA Radiogram now changes to Olivia 32-2000 ...
Before RSID: <<2016-05-22T02:38Z OL 64-2K @ 100000+1499>>
This is VOA Radiogram in Olivia 32-1000
Boiling Water on Mars Alters Its Landscape
Back in late September 2015, NASA excited the science community
when NASA confirmed evidence of liquid water flowing on
present-day Mars.
Now, a new France-based study suggests that not only does liquid
water exist on Mars, it boils quite violently as soon as it
reaches the surface.
The liquid water on Mars was found to emerge only during the
warmest time of day during the Red Planets summer months.
Water at sea level here on Earth boils at 100C. But atmospheric
pressure also affects waters boiling point.
Since the atmosphere of Mars is so thin, it has only 0.6% of
Earths mean sea level air pressure, which means that water on
Mars can boil at a temperature as low as 0C.
VOA Radiogram now changes to Olivia 16-500 ...
Before RSID: <<2016-05-22T02:44Z OL 32-1K @ 100000+1504>>
This is VOA Radiogram in Olivia 16-500
Boiliater on Mars Alters Its Landscape
Back in late Seber SA excithe scienommunityconfd evf lilowing oreseay Mars.
Now, a new Francstudy suggests that not quid
water exist boquite violenas soon eachhe surface.
he liquiars was foun during time ofing the Plans suWater at sea level here on Earth boils at 100C. But atmospheric
pressure also affects waters boiling point.
Since the atmosphere of Mars is so thin, it has only 0.6% of
Earths mean sea level air pressure, which means that water on
Mars can boil at a temperature as low as 0C.
VOA Radiogram now changes to MFSK32 ...
Before RSID: <<2016-05-22T02:52Z OL 16-500 @ 100000+1499>>
This is VOA Radiogram in MFSK32 ...
Image: These dark, narrow, 100 meter-long streaks called
recurring slope lineae flowing downhill on Mars are inferred to
have been formed by contemporary flowing water ...
Sending Pic:296x154C;
Please send reception reports to radiogram@voanews.com.
And visit voaradiogram.net.
Twitter: @VOARadiogram
Thanks to colleagues at the Edward R. Murrow shortwave
transmitting station in North Carolina.
I'm Kim Elliott. Please join us for the next VOA Radiogram.
This is VOA, the Voice of America.
sending Pic:632x44C;
Before RSID: <<2016-05-22T02:58Z MFSK-32 @ 100000+1499>>
VOA Radiogram transmission schedule
(days/times UTC):
Sat 0930-1000 5745 kHz
Sat 1600-1630 17580 kHz
Sun 0230-0300 5745 kHz
Sun 1930-2000 15670 kHz
All via North Carolina