|
|
Thread Tools | Display Modes |
#1
|
|||
|
|||
What is the highest radio frequency used for radio astronomy?
Radium Radio waves before inferred . 25th of an inch all the way to 100
feet Cluster M1 range is 1 and a half inches. have a nice radio picture of it taken by antennas in New Mexico bert |
#2
|
|||
|
|||
What is the highest radio frequency used for radio astronomy?
On Aug 30, 8:35 am, (G=EMC^2 Glazier) wrote:
Radium Radio waves before inferred . 25th of an inch all the way to 100 feet Cluster M1 range is 1 and a half inches. have a nice radio picture of it taken by antennas in New Mexico bert For obtaining eye candy that's entirely outside of our physical reach, and for the most part getting further away as we speak, the 3.438 THz might be fine and dandy for that spendy look-see that can't possibly benefit humanity or that of our badly failing environment. Much above 0.1 THz is where such photons if transmitted from Earth simply do not reflect unless the target offers a nifty array of parabolic dishes, or of some other artificial reflective surface. Outside of our magnetosphere, such as within our moon's L1, is where X band of 8 ~ 12.5 GHz or possibly as great as Ka Band of 26.5 ~ 40 GHz might become interesting and/or essential if future space travel is to avoid those nasty bits and pieces of debris that'll otherwise clean your clock upon encountering such, with C Band of 4 ~ 8 GHz being a little better off for those slightly larger targets and perhaps best of all S Band of 2 ~ 4 GHz offering a compromise that'll still yield more than sufficient image resolution of a given planet or moon, along with offering a darn good reflective signal to noise ratio. However, if the potential target is the least bit intelligent worthy, why not use a blue~violet laser cannon, UV-a, or possibly good old X- rays or even gamma ? Though gravity can be directly measured, of what we can't manage thus far is the two-way frequency applications of utilizing said gravitons. Perhaps there again, the mutual gravity nullification zone of our moon's L1 could allow for the limited use of gravitons, and this alternative might become better yet once we've relocated that moon to Earth's L1. - Brad Guth |
Thread Tools | |
Display Modes | |
|
|
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
What is the highest radio frequency used for radio astronomy? | Radium[_2_] | Astronomy Misc | 44 | September 7th 07 11:20 AM |
What is the highest radio frequency used for radio astronomy? | Radium[_2_] | Amateur Astronomy | 59 | September 7th 07 11:20 AM |
What is the highest radio frequency used for radio astronomy? | Radium[_2_] | UK Astronomy | 44 | September 7th 07 11:20 AM |
radio receivers for radio astronomy | Peter Smith | Amateur Astronomy | 24 | January 13th 04 03:32 PM |
Radio frequency controls | Christopher | Technology | 0 | January 10th 04 09:26 AM |