3. Consider the elements N, Mg, O, F, Al
a. Arrange the elements in order of increasing atomic radius
Mg > Al > N > O > F
b. arrange the elements in order of increasing ionization energy
Al > Mg > O > N > F
c. Explain the trends in these properties using Zeff
4. Why is electron affinity for F higher than that of O? Why doesn't Ne have a large electron affinity?
3. Consider the elements N, Mg, O, F, Al a. Arrange the elements in order of...
7.90 Rank the following elements in order of increasing ionization energy: Mg, P. O. 7.91 Use electron configurations to explain why more energy is required to remove an electron from a lithium atom than from a sodium atom. 7.93 Use electron configurations to explain why the ionization energy for fluorine is greater than that for oxygen. 7.95 Write balanced equations that represent the processes that correspond to the first and second ionization energies for magnesium. 7.96 Which ionization energy (IE....
a. Write the following in order of increasing atomic radius: C, Ge, Si b. Write the following in order of increasing atomic radius: Al, B, Mg c. Write the following in order of increasingly negative electron affinity: Ar, Cl, K d. Write the following in order of increasing first ionization energy: C, Ge, Si e. Write the following in order of increasing first ionization energy: Al, Be, Mg a. Write the following in order of increasing atomic radius: C, Ge,...
COnsider the following elements; Li Al Mg I S N a) Most Metallic? b) Least Metallic? C) Lowest Electronegativity? d) Highest ionization energy? e) Largest atomic radius? f) Which are non-metals? g) Which are conductors? h) Highest electron affinity? I) List them in order from small atomic to large size. J) Would gain two electrons to form ion? K) Would iodide ion considered to be cations or anions? L) Would lithium ion be larger or smaller than lithium atom? M)...
33. Answer the following questions (8 Points) a. Arrange the following in increasing atomic size order Fr, Ar, Mg, Al b. Arrange the following in order of decreasing ionization energy N, C, Li, He c. Arrange the following in the order of increasing electron affinity Si, CI, Mg, Ar d. Arrange the following in the order of increasing electronegativity, Xe, C, Si, F
Using the elements: Li, Al, Mg, I, S, & N. Which of the following has the largest atomic radius? Which one of the following is a conductor? How do you list them from small atomic to large size? Which one of the following is the least metallic? What has the highest ionization energy? Which are non-metals? And which one has the highest electron affinity?
Question 4 3. (20 marks) Arrange the following elements in the order of: a) Increasing radius: Cl', K*, Ar, Ca2*; b) Increasing radius: As, Br, P, Al; c) Increasing radius: N, S, F, Br; d) Increasing electron affinity: Si, P, Cl, C; e) Increasing ionization energy: Al, Rb, Mg, Ca, Mg 4. (20 marks) The following three Lewis structures can be drawn for N2O: N N-O :N-N=O:-:N=N=ö: a) Show the correct formal charges on each atom. Considering these values, which...
Arrange these elements in order of increasing electron affinity: Sr, N, Si, P, Ga, Al.
Questions 3 and 4 3. (20 marks) Arrange the following elements in the order of: a) Increasing radius: Cl', K*, Ar, Ca2*; b) Increasing radius: As, Br, P, Al; c) Increasing radius: N, S, F, Br; d) Increasing electron affinity: Si, P, Cl, C; e) Increasing ionization energy: Al, Rb, Mg, Ca, Mg 4. (20 marks) The following three Lewis structures can be drawn for N2O: N N-O :N-N=O:-:N=N=ö: a) Show the correct formal charges on each atom. Considering these...
please explain! :) PQ-28. Which pair of elements is listed in o which pair of elements is listed in order of decreasing first ionization energy! (A) Na, Mg (B) Mg, AI (C) Al, Si (D) Si, P -29. When the species F, Na', and Ne are arranged in order of increasing energy for the removal of an electron, what is the correct order? (A) F< Nat < Ne (B) Nat <Ne <F (C) F <Ne < Nat (D) Ne <F...
Arrange the following ions in order of increasing ionic radii: Al^3+, F^-, N^3-, Mg^2+, O^2-, Na^+