PRESS RELEASE
We have always believed that the radio signals are sent into space one day will reach a planet occupied by another intelligent life and they will send something back. We were always told by scientists that we will hear one day from others in the outer space.
Well, not true. Scientists have always advocated and worked on projects to make it possible to communicate with “other” intelligent life. For past 100 years billions of dollars spent on projects across the world hoping to send and receive a signal that would indicate a life. Since the first day of transmission into space we were told by scientists that these signals would one day reach to someone and they will send a reply.
This is good as far as the fiction goes, but in real world we would have problem communicating with our own human made radio receiver if we send it out there. If we have the possibilities of putting a radio receiver 1 light day away from earth and send a signal for a length of one second to that receiver that we know exactly where it is located and where to send the signal to. After one day of travel that radio receiver would not receive that signal, even though we know the frequency of that signal.
Thousands of channels are scanned by super computers every day searching for one signal to show “life” on another planet. For past 100 years many documentaries have been made to support this matter, but right from the start we were engaged in fiction rather than pure science.
We saw it in practical terms when we lost communications with Pioneer 10 a few months ago. Pioneer 10 was just 12 hours away from earth. We also saw loss of communications with earlier satellites that NASA sent decades ago. Scientists have always blamed it on low power transmitter on the satellite and presence of space noise. Not true entirely.
Scientists are yet to understand the importance of the condition of transmission and how the signals travel after they leave the transmitter. Signals start to travel sideways -horizontal instead of vertical, after they leave earth. The distance the signals travel makes it possible to turn it to its side, this can happen only in space and not possible to test it in lab. If we are not going to receive our own signal we sent a day before, how can we understand the signals coming from billions of light years away? If we send a message in radio signals to the length of one second in microfrequency frequency, just a day away; 24 hours from us -in light years, the receiver we put it there and pointed its dish towards earth will not receive this signal as a whole. What we receive would be just distortions.
Not only radio signals travel sideways, light is also affected by this. If you look at pictures from other planets out of our solar system, you will find all of them look very similar. Something blurry with some white and dark spots on them, this is due to the “shift” that the light is affected by.
There is a formula containing a series of complex calculations written to support this fact. This formula clearly shows for every 1 light year there is a nearly 248Km shift for every second of signal sent from a location on the equator. This shift of 248Km is the distance between the beginnings of a signal to the end of the same signal. This shift is reduced to zero when the location on earth is moved from equator towards poles. There is no “shift” in signals if transmitted from a transmitter located on 90˚ latitude.
To read more about this new fact and get the formula just point your browser to: www.insane.com.au and click on “Science or Fiction” and follow the link.
Person to Contact:
Shahin Tahmasebi
Ph: +61 2 9809 0001
Fax: +61 2 9809 0005
Email: see the Contacts page
May 2, 2003
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