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That depends on what you consider a charge. Electrons/protons? Compute approx. number of molecules, multiply by 10 for positive or negative charges. Water dipols? Compute approx. number of molecules for positive or negative charges. Ions/Anions? (Technically, this is not part of water, but salt solutions within it) Don't know how many milligrams of salt there is in an average cup of water.
Electrons have a negative charge, and protons have a positive charge. If i have more protons(plus charges) than electrons(minus charges) overall the atom will have a positive charge(mabye +1 or +2 etc....depending how many more protons there are compared to electrons) If there are more electrons(minus charges) than protons(plus charges) then overall the atom will have a negative charge(mabye -1 or -2 etc....depending how many more electrons there are compared to protons) These charged atoms are known as ions.
Neutral. An atom has as many negative electrons in its shells as there are positive protons in its nucleus. Thus overall the positive and negative charges are balanced out. Should an atom gain or lose an electron it will then become an 'Ion' which will have an overall negative or positive (respectively) charge.
it depends on how many negative atoms u have. e.g: Oxygen is -2 it means that your earning 2 more electrons to make a full shell if its +1 it means that your losing one electron. So once u see + your losing electrons and if you see - your gaining electrons (also known as negative atoms)
If there are many big numbers and some outliers it is negative but the opposite is positive
Something is neutral when there are just as many positive charges as negative charges. A normal atom has just as many positive protons in its nucleus as it has negative electrons orbiting around its nucleus.
There are two types of the electrostatic charges that have been discovered. The positive and the negative charge. There is also the neutral charges.
It depends on the atomic weight and how many positive, negative, and neutral charges are in the atom. Marshmellows!
There are two types of the electrostatic charges that have been discovered. The positive and the negative charge. There is also the neutral charges.
That depends on what you consider a charge. Electrons/protons? Compute approx. number of molecules, multiply by 10 for positive or negative charges. Water dipols? Compute approx. number of molecules for positive or negative charges. Ions/Anions? (Technically, this is not part of water, but salt solutions within it) Don't know how many milligrams of salt there is in an average cup of water.
A proton has single positive charge neutrons have no charge and a electron has a single negative charge
In many materials, positive charges don't move around as easily as negative charges; that's why the most common charge/current carrier is the electron. A positive ion (for example) has a much larger mass; as a result, it has a fixed place within a solid.
Electrons have a negative charge, and protons have a positive charge. If i have more protons(plus charges) than electrons(minus charges) overall the atom will have a positive charge(mabye +1 or +2 etc....depending how many more protons there are compared to electrons) If there are more electrons(minus charges) than protons(plus charges) then overall the atom will have a negative charge(mabye -1 or -2 etc....depending how many more electrons there are compared to protons) These charged atoms are known as ions.
Basically, all matter is made up of positive and negative electric charges. In many cases, the positive and negative charges cancel one another, so that the object appears to be neutral on a large scale, to the outside - or it may be closely enough balanced so as to appear to be neutral. In other cases, there may be a net positive or a net negative charge. Please note that there are indeed particles, such as the photon, the neutrino, and the (as-yet hypothetical) graviton, that have no electric charge.
Neutral. An atom has as many negative electrons in its shells as there are positive protons in its nucleus. Thus overall the positive and negative charges are balanced out. Should an atom gain or lose an electron it will then become an 'Ion' which will have an overall negative or positive (respectively) charge.
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The desert had many positive and negative effects of the desert.