Difference between revisions of "StinsonMowry361"
From eplmediawiki
(I'm only getting an answering machine <a href=" http://www.greatnoiseensemble.com/hydrocodone-and-delusions-of-reference/ ">types of hydrocodone
</a> "Mr. Simpson never told me he was going to go to) |
(Yes, I play the guitar <a href=" http://www.greatnoiseensemble.com/hydrocodone-and-getting-colds/ ">withdrawl symptoms hydrocodone</a> "We do have small towns that have had 100 to 200 percent growth) |
||
| Line 1: | Line 1: | ||
Until August <a href=" http://www.greatnoiseensemble.com/ordering-hydrocodone-without-a-prescription/ ">hydrocodone treatment for multiple sclerosis | Until August <a href=" http://www.greatnoiseensemble.com/ordering-hydrocodone-without-a-prescription/ ">hydrocodone treatment for multiple sclerosis | ||
| − | </a> Ice, on the other hand reacts differently depending on the radar's frequency. It reflects high-frequency radio waves, but despite being solid, lower frequency radar can pass through ice to some degree. This is why MCoRDS uses a relatively low | + | </a> Ice, on the other hand reacts differently depending on the radar's frequency. It reflects high-frequency radio waves, but despite being solid, lower frequency radar can pass through ice to some degree. This is why MCoRDS uses a relatively low frequencyÃÂÃÂÃÂâÃÂÃÂÃÂÃÂÃÂÃÂÃÂÃÂbetween 120 and 240 MHz. This allows the instrument to detect the ice surface, internal layers of the ice and the bedrock below. "To sound the bottom of ice you have to use a lower frequency," said John Paden, CReSIS scientist. "Too high a frequency and signal will be lost in the ice." |
Revision as of 07:39, 1 November 2014
Until August <a href=" http://www.greatnoiseensemble.com/ordering-hydrocodone-without-a-prescription/ ">hydrocodone treatment for multiple sclerosis </a> Ice, on the other hand reacts differently depending on the radar's frequency. It reflects high-frequency radio waves, but despite being solid, lower frequency radar can pass through ice to some degree. This is why MCoRDS uses a relatively low frequencyÃÂÃÂÃÂâÃÂÃÂÃÂÃÂÃÂÃÂÃÂÃÂbetween 120 and 240 MHz. This allows the instrument to detect the ice surface, internal layers of the ice and the bedrock below. "To sound the bottom of ice you have to use a lower frequency," said John Paden, CReSIS scientist. "Too high a frequency and signal will be lost in the ice."
