The atomic number of tellurium (Te) is 52.
The atomic weight of Te 127.60 grams per mole.
See the Web Links to the left of this answer for a periodic table with more information about this element!
I want to know what the atomic mass of tellurium is......... It has not answered my question and I would like to know the answer....
Tellurium is a metal element. Atomic mass of it is 127.
They show that the periodic table isn't arranged on the basis of increasing atomic mass because iodine has a mass lesser than tellurium. Iodine has a mass of 126.90 and tellurium has a mass of 127.60.
Iodine is a non meta element. Atomic mass of it is 127.6.
Tellurium is a non metal element. Atomic mass of it is 127.
I want to know what the atomic mass of tellurium is......... It has not answered my question and I would like to know the answer....
Tellurium is a metal element. Atomic mass of it is 127.
They show that the periodic table isn't arranged on the basis of increasing atomic mass because iodine has a mass lesser than tellurium. Iodine has a mass of 126.90 and tellurium has a mass of 127.60.
Iodine is a non meta element. Atomic mass of it is 127.6.
Tellurium.
Tellurium is a non metal element. Atomic mass of it is 127.
Tellurium is a metal element. Atomic mass of it is 128.
this happens with argon and potassium, and also with cobalt nickel. fun stuff.
The Atomic Mass usually increases, but there are a few exceptions, such as tellurium to iodine.
The Atomic Mass usually increases, but there are a few exceptions, such as tellurium to iodine.
Iodine nuclei have one more Proton than Tellurium, but in general the Tellurium atoms have more neutrons, giving a higher average atomic mass. Elements often have isotopes, and their stated atomic masses are averages which look at the abundance of these isotopes. In a given sample of Iodine, 100% of it will be 127I, though the tiniest trace of 129I will exist. In a sample of Tellurium, 65% will be 128Te and 130Te. This makes Tellurium's average atomic mass a little higher than Iodine's.
Tellurium (Te) and iodine (I) would be in reverse order if the elements were placed in order of atomic mass instead of atomic number.