... systems in real time along the axis of a resonately applied probe beam. In particular, we're referring to high G ... during the infolding by its preceding state function in Planck time. What's interesting is the mind/matter connection with the EM ...-field component require the greatest market capitalization of all time is because of the infinite off-world promise market potential ...

... systems in real time along the axis of a resonately applied probe beam. In particular, we're referring to high G ... during the infolding by its preceding state function in Planck time. What's interesting is the mind/matter connection with the EM ...-field component require the greatest market capitalization of all time is because of the infinite off-world promise market potential ...

... can impart about 14 km/sec to your payload - to travel from the surface of the Earth to Mars along such a trajectory - counting ... the velocities we're talking about here. I've discussed this before in other venues. High exhaust speeds require less propellant fracton, and ... Kuiper Belt in a few months - less time than aminimum energy orbit from Earth to Mars. And with 20,000 ...

... can impart about 14 km/sec to your payload - to travel from the surface of the Earth to Mars along such a trajectory - counting ... the velocities we're talking about here. I've discussed this before in other venues. High exhaust speeds require less propellant fracton, and ... Kuiper Belt in a few months - less time than aminimum energy orbit from Earth to Mars. And with 20,000 ...

... can impart about 14 km/sec to your payload - to travel from the surface of the Earth to Mars along such a trajectory - counting ... the velocities we're talking about here. I've discussed this before in other venues. High exhaust speeds require less propellant fracton, and ... Kuiper Belt in a few months - less time than aminimum energy orbit from Earth to Mars. And with 20,000 ...

"Spaceman" <spaceman@yourclockmalfunctioned.duh> wrote in message news:N4mdnROgd-AjpOnVnZ2dnUVZ_vudnZ2d@comcast.com... Jeff Findley wrote: Actually, in the high school physics classes I've taken, we did experiments to verify some of the equations we learned about. That's a bit harder to do with orbital mechanics, but you certainly can observe the motion of bodies which do ...

"Spaceman" <spaceman@yourclockmalfunctioned.duh> wrote in message news:N4mdnROgd-AjpOnVnZ2dnUVZ_vudnZ2d@comcast.com... Jeff Findley wrote: Actually, in the high school physics classes I've taken, we did experiments to verify some of the equations we learned about. That's a bit harder to do with orbital mechanics, but you certainly can observe the motion of bodies which do ...

"Spaceman" <spaceman@yourclockmalfunctioned.duh> wrote in message news:N4mdnROgd-AjpOnVnZ2dnUVZ_vudnZ2d@comcast.com... Jeff Findley wrote: Actually, in the high school physics classes I've taken, we did experiments to verify some of the equations we learned about. That's a bit harder to do with orbital mechanics, but you certainly can observe the motion of bodies which do ...

... its pull depends on the objects velocity, I said the velocity if high enough negates that pull. Velocity cannot negate force...Please prove a longer path will take less energy to travel than a shorter path Greg, Get yourself almost any ...> OK, the orbiting satellite uses no energy. So does the one that travels in a straight line uses less energy? ...

... its pull depends on the objects velocity, I said the velocity if high enough negates that pull. Velocity cannot negate force...Please prove a longer path will take less energy to travel than a shorter path Greg, Get yourself almost any ...> OK, the orbiting satellite uses no energy. So does the one that travels in a straight line uses less energy? ...