Table of Contents
- 1 What is the maximum number of electrons which can be accommodated in an atom in which the highest principal quantum value is 4?
- 2 What is the maximum number of electrons that can be present in an atom in which n 4?
- 3 What will be the maximum number of electrons present in an atom having n l 5?
- 4 What is the maximum number of electrons in an atom with N 4 L 1?
- 5 What is the maximum number of electrons which can be accommodated in the 4 th shell?
- 6 What is the maximum possible number of electrons in an atom with N 7?
- 7 What is the quantum number of the last electron in an atom?
- 8 How many electrons can have n=4 in one atom?
What is the maximum number of electrons which can be accommodated in an atom in which the highest principal quantum value is 4?
What is the maximum number of electrons which can be accommodated in an atom in which the highest principal quantum number is 4? Maximum n = 4 means we can fill upto 4p6 because after that 5s starts. Hence, complete E.C.
What is the maximum number of electrons that can be present in an atom in which n 4?
6 electrons
It correspondns to p-subshell and hence has maximum of 6 electrons.
What is the maximum total number of electrons that can be accommodated by the principal quantum number 2?
The total number of electrons that can be accommodated in all the orbitals having principal quantum number 2 and azimuthal quantum number 1 is 6. Explanation: Principle Quantum Numbers : It describes the size of the orbital.
What is the maximum number of electrons which can be accommodated in the?
Answer: The maximum number of electrons that can be accommodated in an orbit is given by the formula 2n2where n is the number of orbit.
What will be the maximum number of electrons present in an atom having n l 5?
(n+1)=5 has 5s, 4p and 3d orbitals with two, six and ten electrons respectively. Therefore, the total number of electrons present is 18.
What is the maximum number of electrons in an atom with N 4 L 1?
What is the maximum number of electrons in an atom when n 4 and L 1 ml 1? So there can be 16 electrons with n=4, ms=-1/2. When l = 4, this tells you it is a ‘g sub shell’. Thus, there will be a total of 18 electrons.
What is the maximum number of electrons which can be accommodated in the 80 orbital?
Eight is the maximum number of electrons that can be accommodated in the valence shell.
What is the maximum number of electrons which can be accommodated in the 8g orbital?
The maximum number of electrons that can be accommodated in an orbit is equal to 2n2.
What is the maximum number of electrons which can be accommodated in the 4 th shell?
32
The maximum number of electrons that can be accommodated in the 4th energy is 32.
What is the maximum possible number of electrons in an atom with N 7?
The possible orbitals are 7s,6p, 5d, 4f so maximum no. of electrons are 2+6+10+14 = 32.
What is the maximum number of waves made by an electron?
The number of waves made by an electron moving in an orbit having maximum magnetic quantum number is +3.
What is the maximum number of electrons in an atom?
What is the maximum number of electrons which can be accommodated in an atom in which the highest principal quantum number is 4? Here the highest principal quantum number is 4. Therefore, the element belongs to the 4th period and it is Krypton. The maximum number of electrons can be accommodated in an atom is 36.
What is the quantum number of the last electron in an atom?
The last electron is in third shell, so Principal quantum number will be 3 . The azimuthal quantum no. Can be 0,1,2, but as it is the first electron in last shell so the second quantum no. Will be 0 . Since the second quantum no. is 0, so the magnetic quantum no. will also be 0. The spin quantum no. will be +1/2, by hund’s rule.
How many electrons can have n=4 in one atom?
4s, 4p, 4d, 4f can hold 2, 6,10 and 14 electrons respectively, hence there can be a total of 32 electrons that can have n=4 in one atom. The 1st Quantum Number is the layers of electrons where their counts are defined by 3D layers interlaced so 2 x squares every 2nd layer:
How many orbitals are there for each mL of an electron?
For each ml value, we have one orbital that corresponds. ml = − 1,0, + 1 for l = 1. For each ml value, we have one orbital that corresponds. Furthermore, we have the spin quantum number ms for each unique electron, which can be ±1/2 and cannot be the same for two electrons with the same ml.