false
Mark Martin has finished second in points 5 times: '90, '94, '98, '02 and '09.
Dwell angle is simply the amount of time the points or electronic ignition components are in a closed state to charge the primary side of the ignition coil for firing of the spark plug.. This time is expressed in distibutor rotation, hence the degrees..
In Bohr's atomic model, electrons are in specific orbitals (NOT orbits), which are at specific energy levels. An electron can go directly from one orbital to another, but it can never be in-between any two orbitals. The energy level of these orbitals is specified by angular momentum being quantized.
no will never no. <who ever said that needs a brain! This one is pretty simple. The circumference of the earth at the equator is 24,901.55 miles (40,075.16 kilometers). Through the Poles it is shorter. Simply half the circumference eg - 12450.775 Miles.
Honestly, you're in luck. In a few weeks on December 21, 2020, Jupiter and Saturn will align... a real Christmas star. (By the way people think the Christmas Star is Jupiter, Saturn, and Venus.) These things are rare... the last Jupiter-Saturn alignment was in 1226... Now for all the planets, hmm. I'd say it won't happen in the next 10,000 years. Even Wikipedia has ecliptic events for 500,000 AD. Unlike what many think, it's not going to be the end.
The orbits never change their position...
The orbits never change their position...
Pluto orbits the Sun exactly two times for every three Neptune orbits, which ensures they never come close together.
he never died. after getting old,he was forced to retire into the heavens above
The height is not mentioned, just that it was intended to 'reach the heavens' but was never completed.
It is never zero. It may get weaker with distance but it is never zero.
Never. They are points on the same line. *------*
No. Jupiter and Venus have stable orbits that never come anywhere close to each other. They could never collide.
All the planets are in stable orbits around the sun and never come close enough to be significantly affected by each other's gravity.
both
Never.
No