When the cation in a compound is replaced, the charge on the cation can change depending on the properties of the new cation. Some cations have fixed charges, while others can have variable charges. Therefore, the charge on the cation may or may not stay the same when it is replaced in a compound.
Let us say you have an ionic compound such as table salt, sodium chloride. The sodium atom donates a negatively charged electron to the chlorine atom, so that both atoms can achieve a more stable electron configuration. As a result, the sodium is now a positively charged ion and the chlorine is now a negatively charged ion. Opposite charges attract (as per Coulomb's Law) and so, the oppositely charged ions attract each other, and that's why the compound stays together. Now, if it is a covalent compound such as, for example, water, then the process is different. The oxygen is sharing electrons with two hydrogen atoms. They stay together because they have to be together in order to share electrons. The stability of their electron configuration requires it.
opposites attract. the particles are attracted to the positively charged particles.
Quite a lot. Atoms consist of charged particles; electrons stay with the nucleus due to these electrical charges. Also, the outer electrons in an atom interact with neighboring atoms.
No. The negative ions stay within the cell (neuron).An action potential begins (rising phase) with an influx of sodium, a positive ion or cation. The rising phase ends (falling phase) with an efflux of positive ions (potassium). The membrane potential is stabilized again with the action of the ATP dependent sodium-potassium pump.
A common misconception is that proton 1 in the nucleus attracts electron 1 in the orbitals, proton 2 attracts electron 2, etc. This is very, very wrong: every proton attracts every electron all at once. Further electrons, as in beyond the neutral charge, are attracted in the same way as all other electrons, and held subject to a) repulsion and shielding from other electrons and b) remaing gaps in orbitals to fit them.
The compound formed by an ionic bond has a neutral charge because the positive and negative charges from the ions balance each other out. In an ionic bond, a positively charged cation and a negatively charged anion attract each other, forming a stable compound with no net charge.
stay-cation
Materials will stay charged as long as the electrons have no way of entering or leaving the materials.
The First Family - 2012 The First Stay-cation 1-5 was released on: USA: 20 October 2012
Let us say you have an ionic compound such as table salt, sodium chloride. The sodium atom donates a negatively charged electron to the chlorine atom, so that both atoms can achieve a more stable electron configuration. As a result, the sodium is now a positively charged ion and the chlorine is now a negatively charged ion. Opposite charges attract (as per Coulomb's Law) and so, the oppositely charged ions attract each other, and that's why the compound stays together. Now, if it is a covalent compound such as, for example, water, then the process is different. The oxygen is sharing electrons with two hydrogen atoms. They stay together because they have to be together in order to share electrons. The stability of their electron configuration requires it.
Ions remain together in a compound due to electrostatic attraction between opposite charged ions. This attraction, known as ionic bonding, is strong enough to hold the ions together in a stable structure. The arrangement of ions in a compound is dictated by the ratio of positive to negative charges to achieve overall charge balance.
That light doesn't mean that your battery needs to be replaced. It means that your battery is not being charged while the car is running. Have your alternator tested.
Examples of compound words that include the word 'stay' are:mainstayoverstaystay over
Ions in an ionic bond stay together due to the strong electrostatic attraction between oppositely charged ions. This attraction is a result of the transfer of electrons from one atom to another, leading to the formation of a stable compound.
Electromagnets do not stay charged. They work by maintaining and creating a field around an object. If the force is broken then the magnet will go weak as well.
Don't charge it frquently.
Because there is no insulator attached to it to prevent escape of charge.