The electron structure of the two isotopes is the same. They differ in the number of neutrons in the nucleus- 37Cl has two more than 35Cl
Chlorine 35 and chlorine 37 are considered isotopes. As an isotope, they have the same number of protons, but differing numbers of neutrons.
Chlorine 37 has 2 more neutrons than chlorine 35
35,36 and 37. Chlorine has three stable isotopes chlorine-35, chlorine-36, chlorine 37 the most abundant of which are chlorine-35 and chlorine-37.
Chlorine atom has two isotopes - with Mass Number = 35 and 37. One Chlorine molecule can be any of three combinations - 35+35 = 70, 37+37=74 and 35+37 = 72.
No. The difference between these two isotopes of chlorine is in the number of neutrons that their nuclei have, while chemical properties are determined almost solely by the numbers and configurations of electrons in neutral atoms, which are the same for both isotopes of chlorine.
The electron structure of the two isotopes is the same. They differ in the number of neutrons in the nucleus 37Cl has two more than 35Cl. These then means that 37Cl is more radioactive that 35Cl
Example 1.2: chlorine consists of 75% chlorine-35 and 25% chlorine-37.** Think of the data based on 100 atoms, so 75 have a mass of 35 and 25 atoms have a mass of 37. The average mass = [ (75 x 35) + (25 x 37) ] / 100 = 35.5So the relative atomic mass of chlorine is 35.5 or Ar(Cl) = 35.5because of isotopes.there is 75% Cl with mass number 35 and 25% with mass number 37so 35 x 3/4 + 37 x 1/4 = 35.5
Chlorine-37 has more neutrons in it than Chlorine 35
A nucleus of the Cl-37 isotope contains two more neutrons than a nucleus of the Cl-35 isotope.
35,36 and 37. Chlorine has three stable isotopes chlorine-35, chlorine-36, chlorine 37 the most abundant of which are chlorine-35 and chlorine-37.
They are both atoms, both isotopes, and both have 17 protons :)
Chlorine atom has two isotopes - with Mass Number = 35 and 37. One Chlorine molecule can be any of three combinations - 35+35 = 70, 37+37=74 and 35+37 = 72.
Neutrons.
Their number of neutrons. Chlorine 35 and Chlorine 37, What is the difference? Basically, they are both chlorine. They are not distinguished as 2 different elements because they consist of the same number of protons. The atomic number, aka proton number, is what differs between elements. The 2 of them are isotopes of the same element. The number 35 and 37 represents their mass number, which is the number of protons + number of neutrons. Hence, we can see that Chlorine 37 has 2 more neutrons compared to Chlorine 35. What is different then? Isotopes of the same element are identical. A heavier isotope might tend to react slower than a lighter one, which in this case, Chlorine 37 is the heavier one. Isotopes with more neutrons also have better nuclear stability. Isotopes also differ in abundance in nature. Chlorine 35 has an abundance of 75.53%. As chlorine only exist in 2 isotopes, the rest of chlorine found will be Chlorine 37, meaning that it will have an abundance percentage of 24.47%.
The mass of Cl-37 is greater than that of Cl-35. Because Cl-37 has two neutrons more than Cl-35.
They're the same, they both have 17 protons and 17 electrons. The only difference is that Cl-35 has 18 neutrons, whereas Cl-37 has 20. Both have the electron configuration of [Ne] 2s2 3p5
No. The difference between these two isotopes of chlorine is in the number of neutrons that their nuclei have, while chemical properties are determined almost solely by the numbers and configurations of electrons in neutral atoms, which are the same for both isotopes of chlorine.
Chlorine has a lot of different isotopes but the 2 stable ones are chlorine 35 and chlorine 37
Isotope can be referred to as the different versions of the SAME ELEMENT. Such as Chlorine has isotopes of Chlorine - 35 and Chlorine - 37. This will just cause the difference in mass numbers because of the difference in neutrons. Chlorine -35 has 17 protons, 17 electrons and 18 neutrons making it to have a mass number of 35 and Chlorine - 37 has 17 protons, 17 electrons and 19 neutrons making it to have a mass number of 39. Some isotopes can be used in normal chemical reactions but some cannot.