they do but if they looses one electron they spin off of their circular path
In energy shells around and outside the nucleus of an atom!!!!
The statement that electrons move in fixed circular orbits around the nucleus is incorrect. In the current model of the atom (the quantum mechanical model), electrons are described by probability distributions called orbitals and do not follow fixed circular paths.
Yes, gravity is what determines the shape of a planet's orbit around a star. Depending on the initial conditions of the planet, the orbit can be circular, elliptical, or another shape, but gravity is always the force that governs the path of the planet.
Bohr proposed that an electron is found only in specific circular paths, or orbits, around the nucleus.
Gas particles move randomly in all possible directions and travel in a straight path.
Elliptical satellites don't have a constant speed, but circular satellites do
The circular paths are called orbits.
Bohr proposed that an electron is found in circular paths, or orbits, around the nucleus, and they can only orbit at a specific fixed distance from the nucleus.
Objects in our solar system, including planets, asteroids, and comets, travel around the Sun in elliptical orbits. The planets orbit the Sun in nearly circular paths along a plane known as the ecliptic. Comets and asteroids can have more eccentric and tilted orbits compared to the planets.
The three paths the blood can take once it has left the heart is to the brain, the lungs, and to the rest of the body and muscles. -Hope this helped(:
In energy shells around and outside the nucleus of an atom!!!!
The statement that electrons move in fixed circular orbits around the nucleus is incorrect. In the current model of the atom (the quantum mechanical model), electrons are described by probability distributions called orbitals and do not follow fixed circular paths.
Both
earth rotation
bokomo
question mark OK i have no idea
Dalton