it is the distance between what an object is orbiting around and the object itself in any given point
A radius (or radial) vector is a vector which goes through the origin. That is going directly away from (or toward) the origin. A vector that is not radial is a transverse vector
the main definition of diameter is the measurement of straight down the middle of a circle or some other shapes but mainly circles
radius bones radii radiuses
There isn't one. Radius is a noun, and despite the use of the word radius in machining and fabrication as if it were a verb, it remains a noun. It is improper use of the word to ask someone to "radius an edge", but this doesn't stop people using the words as if it were a verb. What typically ought to be asked for is that a radius be put on the edge. So, not "Go and radius that edge on the bench grinder." but instead "Go and put a radius on that edge with the bench grinder."
It is singular. The plural of "radius" is "radii" with two i's.
If you decrease a planet's orbital radius, its surface temperature will increase.
A planet's orbital radius directly affects its orbital period through Kepler's third law of planetary motion. The farther a planet is from the star it orbits, the longer its orbital period will be, assuming all other factors remain constant. This relationship is expressed mathematically as T^2 ∝ r^3, where T is the orbital period and r is the orbital radius.
Neptune has the largest orbital radius among the eight planets in our solar system. Its average distance from the Sun is about 4.5 billion kilometers.
Orbital speed of a satellite: v - orbital speed G - gravitational consatnt R - radius of earth h - height of orbit
Uranus' orbital radius is about 19.22 times the average distance from Earth to the Sun (1 astronomical unit). This makes Uranus' average distance to the Sun approximately 19.22 astronomical units.
Yes, spot on, good guess . .
ok what is the point in haveing this question even up if it doesnt have a goddamn answer up yet!!!?!?!?!?
Using Newton's law of universal gravitation and the fact that the gravitational force is equal to the centripetal force, we can set up an equation to find the orbital radius of Los. By equating the gravitational forces of both Los and Ratipuj, we can find the orbital radius of Los to be approximately 1.49 x 1010 km.
charge, atomic radius, orbital penetration, and electron pairing.
The atomic radius refers to the distance from the nucleus of an atom to the outermost electron orbital. It is a measure of the size of an atom. The atomic radius generally increases as you move down a group in the periodic table and decreases as you move from left to right across a period.
The formula to find the orbital speed v for a satellite in a circular orbit of radius r is v (G M / r), where G is the gravitational constant, M is the mass of the central body, and r is the radius of the orbit.
As the orbital radius increases, the period of the orbit also increases. This is because the gravitational force weakens with distance and it takes longer for the object to complete a full orbit at larger distances from the center of mass.