If the Earth had a faster revolution then we would be sucked into the Sun.
The sun has gravity, that is what makes the planets orbit it. All the planets are orbiting in a circular motion. Have you ever thought how come the planets never bump into each other~? It is because they are orbiting the sun at the correct revolution :)
If you mean how fast it turns on its axis - then we could see (what we now call) the far side, half the time, otherwise no change. IF you mean how fast it goes around Earth, then you go back a few billion years .... A day was also shorter, tides were twice as common (and higher). OR if everything else remained the same, then it would move out to a more distant orbit.
In that case, it would only be able to stay in a stable orbit if it were quite a bit closer to Earth. You can calculate how close, using Kepler's Third Law.Update: Another option is for Earth to have a greater mass.
If you mean rotational, as spinning on its axis, then we would see both sides of the moon from earth.
there would be two low tides and two high tides per day
-- The moon would rise, on the average, 98 minutes earlier every day than it did the day before.
-- A full cycle of phases would be seen every 14.77 days.
It would go super fast and when its night it will be morning.
love girls.
i dont understand i will just copy and paste
The object will appear to be moving to the right in your visual field. This is because your visual field is moving to the left faster than the object is moving to the left. What you will see is that the object will appear in your visual field on the left, and the object will move across your visual field to the right.
Have it totally scraped with an appropriate abrasive twice and then varnish it twice.
If one solution has twice as much solvent, but has the same concentration then it also has twice as much insolvent.
No. For a start, you probably don't mean "acceleration" you probably mean "speed" or "velocity." There is a non-linear relationship between force applied on an object and the speed which it will travel through a medium (in this case, air). To double the speed, the amount of force required is more than double, since as the speed of the object increases, the frictional losses similarly increase. Since in this case, the ball will continue to slow immediately after release, the ball is experiencing "acceleration" with a negative value. A In case you are really asking about acceleration the answer is yes. If the ball, in your hand, starts from rest and is accelerated up to some velocity at which it leaves your hand then that acceleration will be double if you throw with twice the force. This will cause the ball to leave your hand with twice the velocity. Once it leaves your hand you are no longer exerting a force on it and the ball will be subject to air resistance which will affect its velocity as described above.
you are freering to the internal clock speed and the external clock speed corect? ECLK or ECLKNOT are external clocks to the microprocessor. they do not run it. they are for the microprocessors supporting hardware. the internal frequency is what the processor actually uses. the ECLK is divided by two( a 6MHZ cycle take half as long a 3MHZ, right). the reason external (E) clocks run twice as fas as a processor is because there is not much data that can be processed in one cycle. it also allows the supporting architecture to access the data twice as it is processed. think about accessing a memory slot, it would use one ECLK cycle to locate the slot and one ECLK cycle to right the data to the processor. reading memory is a very simple task, but it still take two cycles. if the ECLK didnt run at twice the speed of the internal clock, the processor would be idle half of the time. actually there is a frequency devider circuit using 555 timer which devides the crystal frequency by 2......and the microprocessor components function proper at 3.14 Mhz.
It would go super fast and when its night it will be morning. love girls.
The closer one.
Phobos is the largest out of Mars' two moons, and is about twice the size of Deimos.
It would go super fast and when its night it will be morning. love girls.
Mars has roughly twice the Earth's period of revolution.
Pluto has four known moons, four times as many as the Earth.
It would go super fast and when its night it will be morning. love girls.
It would go super fast and when its night it will be morning. love girls.
Twice the Speed of Life was created on 2004-10-26.
The moons of Mars are actually quite small, smaller than any of the known moons of Neptune. It is possible that further observation of Neptune will reveal additional, smaller moons, but at present, the smallest moon of Neptune is over twice the size of the larger of Mars' moons.
Actually, the answer is Mars. Mars' revolution is 1.88 years which is almost twice as the revolution of Earth.
Nothing physical is believed to be able to travel twice the speed of light.