Jupiter's orbit is an ellipse with an eccentricity of 0.048, which means that it looks like a circle with the Sun off-centre by an amount equal to 0.048 times the average radius.
Uranus has an eccentricity of 0.047 and that is the closest among the other planets.
dumb bell shape
The probability density cloud for the orbitals are:* s-orbitals are shaped like spheres. * The three p-orbitals have the form of dumbbells. The three p-orbitals ina shell each are oriented at right angles to each other * Four of the five d-orbitals are four pear-shaped balls. The fifth is a torus. * Thee seven f-orbitals can best be described as "complex"
Only s-orbitals are of spherical shape.First of all, it must be known that orbitals are not a well-defined areas with sharp boundaries, they are just places with high probability of finding an electron.By finding all such places, shape of an orbital is formulated.This is done by solving Schrodinger equation, which gives the probablity of finding an electron in a certain place.
FOCI
Ellipse..
pluto
A planet's orbit around the sun is in the shape of an oval.
All planets in our solar system have elliptical orbits.
orbital shape
Jupiter is a large, circular, multicolored planet.Ans 2.The shape of Jupiter is an oblate spheroid.
The shape of a p orbital is like a dumbbell-shaped. P orbital shapes depends on the quantum numbers affiliated with an energy state.
dumb bell shape
sp3 orbitals are similar in shape to p orbitals however one side is much larger than the other - hence you have a lopsided dunbell shape orbital
spherical
It has to have enough gravity to pull itself into a spherical shape, be able to "clear " its orbital neighborhood and it has to orbit a star. It does not have to be any certain size. This information is valid and definitely not false. I am trained in astronomy.
p
The shape and spatial orientation of the p orbitals in an atom can be remembered by calling it the peanut orbital. The shape of a p orbital is peanut shaped and can be oriented on the x, y, or z axes.