For each of the orbitals: 3s, 3p, 3d, build graphs
that represent
a) Radial Wave Function b) The Radial Distribution Function
For each of the orbitals: 3s, 3p, 3d, build graphs that represent a) Radial Wave Function...
a) What is the angular momentum for the 3s, 3p, and 3d orbitals? b) How many radial and angular nodes are there for each of these orbitals? c) Specifically locate any angular and radial nodes for the wave functions given below: d) Please identify the orbital in c) and indicate how you did this.
The plot below shows the radial distribution function of the 3s and 3p orbitals of the hydrogen atom. Identify each curve (a & b) as 3s or 3p and explain in terms of penetrating power how you came to this decision. Radial distribution Function > Radius- >
QUESTION 2 An electron in 3s orbital has a greater penetration through inner shells than an electron in a 3p and 3d orbitals because 3s orbital is spherical the maximum in 3s radial distribution function is closer to the nucleus than for the 3p and 3d the 3s radial distribution function has a subsidiary maximum that is closer to the nucleus than for the 3p and 3d The radius of 3s orbital is the smallest The 3s radial distribution function...
Arrange the following orbitals from the highest energy to lowest energy: 3s, 6s, 4f, 3p, 3d, 6p
8. Which elements are represented by the following electron configurations? a. 15-2s 2p 3s 3p 3d 10 452 4p highest occupied orbitals valence electrons b. 1s 2s 2p 3s 3p 4s 3d highest occupied orbitals_ valence electrons c. [Kr] 5s 4d 0 5p? highest occupied orbitals valence electrons d. [Ne] 3s 3p highest occupied orbitals valence electrons e. [Ar]3d 4s? highest occupied orbitals valence electrons
can you please explain both 31) The number of radial nodes present in the radial probability distribution curves for the orbital wave function with quantum numbers n = 4,1 = 0 and m=0 is: A)1 B2 C)3 D)4 32) Which pair of atomic orbitals possess the same number of radial nodes? A) Is and 3d B) 4s and 3s C) 3s and 3d D) 2s and 3d
Using the radial wave function for the 3s orbital of the H-atom AND a computer software, generate: (a) A plot of the radial wave function for radius (r) values ranging from 0 to 20 Å (you can go with increments of 0.2 Å) (b) A plot of the radial distribution function for the same r values. How many radial nodes did you get, and at what r values? How many maxima did you get from part (b), and at what...
Locate the radial nodes of each of the 3d orbitals of a hydrogenic atom of atomic number Z
12.18 of the hydrogen ls d 3s orbitals, (a) The square wave honal electron density function, (b) "Slices" of the surfaces that contain 90% of lectrion probability (the "sizes Is 2s 3s ls 3s a) Figure 12.18 on page 555 shows repieseiatios of theis, 2s, and 3s atomic orbitals. Referring to this diagram, what are the diferences and similarities for these three orbitals? the Cartesian
Question 6 of 25 > Two types of nodes occur in atomic orbitals: spherical (radial) surfaces and planes (angles). Examine the 2s 2p, and 3p orbitals, and then characterize their nodes. outer ball of electron density (wave trough) nucleus inner ball of electron density (wave peak) The 2s orbital has The 2p orbital has T auhital han Which of the statements are true? Check Answ Question 6 of 25 > The 3p orbital has Which of the statements are true?...