No. Newton's 3 laws of motion are not equal to his law of gravitation. Newton was able to combine his laws of motion with his law of universal gravitation to explain Johannes Kepler's laws of planetary motion. (Wikipedia)
Zero gravity does not affect Newton's three laws of motion in any way. They always operate exactly the same regardless of how weak or strong the force of gravity is. Just calculate based on the laws using the actual forces operating on the object in the situation that it is currently in.
Absolutely. In fact, they're far more obvious in zero gravity than on the surface of the earth.
Which is the reason that it took thousands of years of human civilization before anyone recognized that
the "Laws of Motion" actually describe the way things really work.
They apply to everything that contains, or uses, force and motion.
cause stuff moves in outer space of course.
Absolutely yes. The force of gravity is throughout the Universe.
If by mechanics you mean laws of physics, and if you mean outer space as being in outer space far away from gravitational pull, all laws apply aside from gravitational laws.
they have no energy
Hussam is that you lol
The motion of a dot (spot, point) on the outer edge of a tire on your car as it drives down a smooth, straight road.
S waves can not travel through liquids, the outer core is a liquid, so the S waves can not travel through the outer core. You can also determine that since the outer core is all around the inner core, that the S waves can no travel through the inner core as well.
Yes, the laws of motion apply in outer space.
because newtonas lawis andobjectthat stays in motionwill like stay in motion thereforethe cars afterthey getgettherespeedwill probably keep going until the outer force( friction) acts to slow it down
For every action, there is an equal and opposite reaction (Newton's third law of motion)..
NO
Not according to Newtons Law: Forces = Mass X Acceleration However, in a vacuum, after you used your force on an object and it now has motion, the object will have motion for eternity, even when there is no force. So as a matter of fact, it is possible. Just not on any planet, only in outer space.
All the models explain retrograde motion because it is such an obvious phenomenon. In Copernicus's model an outer planet goes into retrograde motion when the inner planet overtakes it so that it appears from the inner planet to be going backwards along the ecliptic.
0.0 newtons
0.0 newtons
There is no such thing as "absolute motion" - neither in outer space, nor anywhere else. Motion must always be specified in relationship to some other object.
Without the effects of gravity the person will be weightless.
outer rings are spaced more closely than the inner ones.Because slope of lens increases outward,separation of rings get smaller for the outer rings.
Inner planets small and rocky. Outer planets big and gassy.