+1
The real charge on an electron is -1.60217646 x 10-19 Coulombs. The charge on a proton is +1.60217646 x 10-19 Coulombs. Because these values are cumbersome to work with, and are equal but opposite, the protons were assigned a charge of +1, and electrons were assigned a charge of -1.
No, a proton's charge is +1.
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
A proton has a positive charge.
a proton has a positive charge
The real charge on an electron is -1.60217646 x 10-19 Coulombs. The charge on a proton is +1.60217646 x 10-19 Coulombs. Because these values are cumbersome to work with, and are equal but opposite, the protons were assigned a charge of +1, and electrons were assigned a charge of -1.
As electrons carry negative charge. Only man has assigned positivity to proton and so electron gets negative. Truly speaking proton and electron are oppositely charged. This is the make by nature. But Positive and negative are man made.
The magnitude of the electric charge on the proton can be seen as an assigned (or a derived) value, notated as +1 where the "+" is the sign on the charge, and "1" the value or magnitude. Electric charge in general reflects quantization - that charge exists in discrete units known as the elementary charge, "e", taken to be the charge on the electron (whose magnitude is the same but sign ("-") is opposite that of the proton). The value in practical units (Coulomb) is about 1.602 x 10^-19 Coulomb. Charge answers to a quantum number which notably is preserved in particle interactions. The nature of charge can be shown in how charged particles such as protons react to the fundamental forces; in the case of electric charge the force of interest would be the electromagnetic force. In this sense its nature could be defined by how it reacts when placed in an electromagnetic field. Since the proton is a composite particle made of up smaller charged particles which contribute to its overall charge, a full exploration of the nature of electric charge would include an understanding of its three component quarks, which are assigned fractional units of elementary charge, and the sum of the combined fractional charges (+2/3, +2/3, -1/3) equals +1 for the proton. Note that charge in another sense (color charge, relating to a different fundamental force) is evident for protons; a fuller exploration of the subject is the area of quantum chromodynamics.
Compared to the (charge/mass) ratio of the electron:-- The (charge/mass) ratio of the proton is much smaller; although the proton charge is equal to the electron charge, the proton mass is much larger, by a factor of more than 1,800.-- The (charge/mass) ratio of the neutron is zero, because the neutron charge is zero.
No, a proton's charge is +1.
A proton has a positive charge of 1.602 x 10-19 coulomb.
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
A proton has a positive charge.
Yes, a proton has a positive charge.
By definition, a proton is positive, so a proton will always have a positive charge.
A proton has a positive charge of +1 An electron has a negative charge of -1 An neutron has no charge
a proton has a positive charge