It represents the mass number.
Cadmium has an atomic number of 48, therefore it has 48 protons in the nucleus and 48 electrons in the neutral atom. There are a number of isotopes (list from wikipedia article Cadmium) 106Cd 58 neutrons 108Cd 60 neutrons 111Cd 63 neutrons 112Cd 64 neutrons 113Cd 65 neutrons 114Cd 66 neutrons 116Cd 68 neutrons
The (loosely defined) transition metals are the 40 chemical elements 21 to 30, 39 to 48, 71 to 80, and 103 to 112. The name transition comes from their position in the periodic table of elements.In each of the four periods in which they occur, these elements represent the successive addition of electrons to the datomic orbitals of the atoms. In this way, the transition metals represent the transition between group 2 elementsand group 13 elements.
Cadmium is the only neutral atom (not electrically charged) to have 48 electrons.
There are 48 nuetrons in that isotope. 84 -36= 48. Atomic mass - atomic number = nuetron number. I hope you found this helpful. Good Luck in Chemistry! There are 48 nuetrons in that isotope. 84 -36= 48. Atomic mass - atomic number = nuetron number. I hope you found this helpful. Good Luck in Chemistry!
Isotopes.
84 is the mass number: 36 proton plus 48 neutrons
84 is the mass number: 36 proton plus 48 neutrons
84 is the mass number: 36 proton plus 48 neutrons
84 is the mass number of a stable isotope of krypton, 84Kr has 36 protons and 48 neutrons in its nucleus that give it an atomic weight of 84.
84 is the mass number: 36 proton plus 48 neutrons
48
We're going to use 'n' to represent the number. 8n = 48 (same thing as 8 x n = 48) 8n/8 = 48/8 (divide both sides by 8) n = 6 (times 8 and divided by 8 cancel each other 8, leaving n) 8 x 6 = 48
A quindecillion.
48, the gcf of the same number is always going to be that number
48 is a number, and a number has no dimensions.
You divide that number by 48, and if it comes out equal, it is divisable by 48.
The decimal number in binary is the six-digit number 110000. The digits in a binary number are exponents of 2 rather than 10, so that for a six-digit number in binary, the digit places represent 32, 16, 8, 4, 2, 1 instead of increasing values of 10. 110000 = 32 +16 + (0x8) + (0x4) + (0x2) + (0x1) = 48