I think we have an old answer on that topic. Summary Students will put a static charge on a strip of plastic by pulling it between their fingers. Since opposite charges attract, protons and electrons attract each other. It sounds like an up quark is composed of 2/3 of electron and down quark is composed of 1/3 of electron. The charge on the proton and electron are exactly the same size but opposite. Some of those other kinds of charge cannot be expressed as simple positive or negative numbers at all, but require more complicated mathematical representation. Shyan said: A proton has 2 up quarks and 1 down quark.Up quarks have electric charge equal to and down quarks have electric charge equal to where e is the charge on a proton. (I guess if it didn’t, there wouldn’t be interactions, and we wouldn’t exist if the elementary building blocks of matter didn’t interact with each other). These are a lot like photons (which interact with anything with electrical charge), except that the gluons themselves carry strong-force charge and therefore interact with each other, making a gluey, sticky mess. The strong nuclear force (for which the 2004 Physics Nobel Prize was awarded to Gross, Politzer and Wilczek just a couple of days before I am writing this), involves additional kinds of charge, which interact with the carriers of the strong nuclear force, called gluons. The weak nuclear force introduces other kinds of charge (often called "hypercharge" or just weak charge) which are actually related in a very wonderful way to the electrical charges the weak nuclear force and the electromagnetic force are described together in a beautiful model which describes how at very high energies they are one and the same kind of interaction. Other kinds of charge exist! The electromagnetic force is just one of several that particles interact with in nature. We’ve lived with his convention ever since. He based his convention on which signs of charges were deposited by either glass or amber on an object that was rubbed on them. The number of protons in the nucleus of an atom determines what kind of. He proposed that electric charge was some kind of fluid, and that objects that gained fluid have positive charge and object that lost it gained a negative charge. The protons charge is equal but opposite to the negative charge of the electron. In fact, it was Benjamin Franklin who proposed in the mid 1700’s that charge is conserved - that total charge remains the same even though positive charges can be separated from negative ones. The convention of which sign of charge is positive and which is negative is purely arbitrary. The negative charge of each electron is found by experiment to have the same magnitude, which is also equal to that of the positive charge of each proton.
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