Write up the first three ionization energies
Na
Ionization energy: The amount of energy required to remove the electron from the outermost orbit of an atom in its gaseous state.
First Ionization energy of Sodium (IE1) = 498 Kj/mol
Secon Ionization energy of Sodium (IE2) = 4560 Kj/mol
Third Ionization energy of Sodium (IE3) = 6910Kj/mol
Successive ionization energies of atom is going on increasing.
As the number of electrons removed, effective nuclear charge increases on the rest of electrons, so ionization energy is goes on increases.
Element Na First Ionization Energy (J/mol) 4.95 x 105 4.19 x 105 K 6. The first ionization energies for Na and K are given in the table above. a. Write the complete electron configuration for Na. b. Based on principles of atomic structure, explain why the first ionization energy of K is lower than the first ionization energy of Na. c. Which ionic solid would have the greatest melting point, NaCl or KCI? Justify your answer in terms of lattice...
1 CO& molecules. Justify your answer. rst ionization energies for Na and K are given in the table below. Na metal reacts vigorously with water to form hydrogen gas and a metal hydroxide. K metal reacts vigorously as well, but it bursts into a violet-colored flame Element First Ionization Energy (J/mol) Na 4.95 x 105 4.19 x 10s Based on principles of atomic structure, explain why the first ionization energy of K is lower than the first A student hypothesizes...
Write equations that show the processes that describe the first, second, and third ionization energies for a gaseous aluminum atom. Express your answers as chemical equations separated by commas. Identify all of the phases in your answer. _____ Part B Which process would require the least amount of energy? the process for the first ionization energy the process for the second ionization energy the process for the third ionization energy
Write equations that show the processes that describe the first, second, and third ionization energies for a gaseous iron atom. Express your answers as chemical equations separated by commas. Identify all of the phases in your answer.
Question 3 (1 point) Determine the INCORRECT statement regarding ionization energies [IE(1) means first ionization energy, IE(2) is second ionization energy, etc...) O IE(2) P > IE(1) P IE(2) Na > IE(2) Mg IE(1) S > IE(1) Te IE(1) CI > IE(1) F IE(2) Na > IE(2) K
Three elements have the electron configurations 1s22s22p°3s23p°, 1s22s22p°3s2, and 1s2s22p63s23p°4s'. The first ionization energies of these elements (not in the same order) are 0.419, 0.735, and 1.527 MJ/mol. The atomic radii are 160, 97, and 227 pm. Identify the three elements, and match the appropriate values of ionization energy and atomic radius to each configuration First Ionization Electron Element Symbol Atomic Radius (pm) Configuration Energy (MJ/mol) 1s2s2p63s23p6 1s22s22p63s2 1s22s22p63s23p64s1
A) Write the equation for the fifth ionization energy of phosphorous. B) Using the ionization energies for silicon below, please explain why the ionization energies increase. 1E5 E. (kJ/mol) Element Ez (kJ/mol) |E2 (kJ/mol) IE3 (kJ/mol) |E4 (kJ/mol) (kJ/mol P 1012 1907 2914 4964 6274 21267 C) Why is there a large increase in energy from the fifth ionization energy to the sixth ionization energy?
The first three ionization energies for element Z are 320 kJ/mol, 640 kJ/mol, 10,200 kJ, mol. What is the likely charge of Z Z+ Z2+ Z3+ Z4+
5. The bars in the graph represent the relative magnitudes of the first 5 ionization energies of an 12 14 Identify the element and write its complete electron configuration assuming it comes from a) Period 2: b) Period 3:
-Predict where the largest jump between successive ionization energies occurs for Li. -between the second and third ionization energies -between the fourth and fifth ionization energies -between the first and second ionization energies -between the third and fourth ionization energies -Predict where the largest jump between successive ionization energies occurs for Be. -between the second and third ionization energies -between the first and second ionization energies -between the third and fourth ionization energies -between the fourth and fifth ionization energies