Orbitals, and Probability Patterns - Page 4
Questions
- An electron is in the hydrogen atom with #n = 3#. #|L| = sqrt6 ℏ# . Which is a possible angle between #vecL# and the #z# axis?
- For the Hydrogen atomic #2s# wave function given by #psi = 1/(2sqrt(2pi)) sqrt(1/a_0) (2 - r/a_0)e^(-r//2a_0)#, at what radial distance away from the nucleus can no electrons be found?
- Why are orbitals described as probability maps?
- Why is there greater repulsion between two lone pairs of electrons than between a lone pair and a bonding pair of electrons?
- Do two electrons in one orbital repel each other if they have opposite spin?
- What determines the probability pattern of an orbital?
- What are the number of sub-levels and electrons for the first four principal quantum numbers?
- What is the maximum number of electrons in each ofthe following energy levels: first, second, third?
- What is the highest energy level in which you would find electrons in a chlorine atom?
- What is the difference between nodal surfaces and nodal planes?
- How do yo write the orbital diagram for oxygen?
- What is the Pauli Exclusion Principle?
- How many #d# orbitals are there?
- How do yo write the orbital diagram for silver?
- Why is a 3s orbital lower in energy than a 3p orbital in all atoms other than a hydrogen atom which only has a single electron?
- How many subshells are in the n = 3 shell? And How many orbitals are in the n = 5 shell?
- How do you write the electron spin?
- How many s orbitals can there be in one energy level?
- What is the formula for calculating a nodal point?
- For s, p, d, and f orbitals, how many electrons can each hold?