Nothing would change with respect to gravity if the Earth were moved closer to the Sun; but we would all certainly die quickly because the world would heat up to an intolerable level.
Direction with respect to the nucleus
what is the term used for the orbital period of an object with respect to the stars?
To the extent that I can make any sense of the question: Yes, the probability function for an s orbital is spherically symmetric and dependent on radial distance only.
venus
orient with respect to gravity
the moon has less gravity because if you walk on the moon you would bounce not properly walk.
Orbital distance from the Sun. Axial tilt with respect to the Plane of the Ecliptic.
We do experience the gravity of the moon, as does the entire planet. But since the planet is essentially in freefall with respect to the moon's gravity we feel effectively weightless with respect to the moon. Now, when standing on the moon, humans do feel its gravity, but its strength is only about 1/6 of that of the Earth, due to its smaller mass.
Moon's orbital period . . . With respect to the distant fixed stars . . . 27.32 days With respect to the sun & the phases of the moon . . . 29.53 days
L points also known as Lagragian points, Libration points and Lagrance points. the L points are the five positions in an orbital configuration where a small object affected only by gravity can theoretically be stationary relative to two larger objects (such as a satellite with respect to the Earth and Moon).
The physical significance of the spring constant is the characteristics of the spring. Hooke's law states that the force needed to compress or extend a spring by a specific distance is proportional to that distance.
No, acceleration due to gravity is a constant at 9.81ms-2. It cannot be influenced by other factors such as height.