All acids have positive charge.
Both mineral and carboxylic acids ionise to some degree in solution producig hydrogen ions H^(+). , Notice they are plus/positive. It is these ions that are the avid component on a substance.
E.g. Mineral acid H2SO4 = 2H^(+) + SO4^(2-)
e.g. Carboxylic acid CH3COOH = CH3COO^(-) + H^(+)
The pH scale indicates the number of H^(+) ions in a solution. The lower the number , the more H^(+) ions.
When the total positive charges are equal to the total negative charges in an atom or a molecule, the overall charge is neutral. This means that the number of protons (positive charges) is equal to the number of electrons (negative charges), resulting in a balanced electrical charge.
If an atom has 3 positive charges (protons) and 4 negative charges (electrons), the 3 positive charges would "cancel out" 3 negative charges, with one negative charge left over. So the atom would have a charge of -1.
The net charge of an object or particle can be determined by adding up the positive and negative charges present on the object or particle. If the total positive charges are greater than the total negative charges, the object or particle has a positive net charge. If the total negative charges are greater, it has a negative net charge. If the positive and negative charges are equal, the object or particle has a neutral net charge.
Positive, negative, neutral
The fundamental property of matter that may be identified as positive or negative is electric charge. Positive charges are carried by protons, negative charges by electrons.
a positive and a positive or a negative and a negative. Object with the same charge. Like charges repel each other.
The two types of electric charges are positive and negative. Positive charges repel each other, as do negative charges, while positive and negative charges attract each other.
Positive charges attract negative charges and repel other positive charges. Negative charges do the opposite, attracting positive charges and repelling other negative charges. Like charges repel and opposite charges attract.
A charged object can have an unequal number of positive and negative charges, resulting in a net charge. An object with more positive charges than negative charges will have a positive net charge, and vice versa for negative charges.
No electric charges may be positive or negative - electrons have a negative charge; ions have a positive charge.
Positive and negative charges are fundamental properties of matter. Positive charges are associated with protons, which have a positive electrical charge, while negative charges are associated with electrons, which have a negative electrical charge. Opposite charges attract each other, while like charges repel. This interaction between positive and negative charges is what governs the behavior of electricity and magnetism.
Positive electric fields point away from positive charges and towards negative charges, while negative electric fields point towards positive charges and away from negative charges. In both cases, the direction indicates the direction that a positive test charge would move if placed in that field.
both because every object has both positive and negative charges but mainly has positive charges.
Electric field lines go from positive charges to negative charges.
It is because it has positive charges (from 2 H) and negative charges (from O), that the charges balance out (negative + positive = neutral) (2H+) + (O2-) -----> H2O
The two types of electric charge are positive and negative. Positive charges repel each other, as do negative charges, while opposite charges attract each other.
No, positive objects can contain a mix of positive and negative charges. For example, in an atom, the nucleus contains positive protons while the surrounding electron cloud contains negative electrons.