(a)
Interpretation: To write the electronic configuration of liquid in Group 7A with a
Concept introduction:
The electron configuration of an element defines how its electrons are arranged throughout its atomic orbitals. Standard notation is used to represent atomic electron configurations, placing all electron-containing atomic subshells in sequential order. The number of electrons held by the subshell is indicated by superscript.
(a)
Answer to Problem 68A
Explanation of Solution
Group 7A elements are fluorine, chlorine, bromine, iodine, and astatine. Out of all halogen elements, bromine is liquid. The
(b)
Interpretation: To write the electronic configuration of metalloids in period 3 with a
Concept introduction:
The electron configuration of an element defines how its electrons are arranged throughout its atomic orbitals. Standard notation is used to represent atomic electron configurations, placing all electron-containing atomic subshells in sequential order. The number of electrons held by the subshell is indicated by superscript.
(b)
Answer to Problem 68A
Explanation of Solution
The only metalloid in period 3 is Si. Its atomic number is 14 and its electronic configuration is as follows:
After losing 4 electrons, its electronic configuration is as shown:
(c)
Interpretation: To write the electronic configuration of group 6A gaseous element having
Concept introduction:
The electron configuration of an element defines how its electrons are arranged throughout its atomic orbitals. Standard notation is used to represent atomic electron configurations, placing all electron-containing atomic subshells in sequential order. The number of electrons held by the subshell is indicated by superscript.
(c)
Answer to Problem 68A
Explanation of Solution
Group 6A elements are oxygen, sulfur, selenium, tellurium, and polonium. Out of all group 6A elements, oxygen is gas. The atomic number of Oxygen is 8 and after gaining
(d)
Interpretation: To write the electronic configuration of alkali earth metal in period 3 with +2 charge.
Concept introduction:
The electron configuration of an element defines how its electrons are arranged throughout its atomic orbitals. Standard notation is used to represent atomic electron configurations, placing all electron-containing atomic subshells in sequential order. The number of electrons held by the subshell is indicated by superscript.
(d)
Answer to Problem 68A
Explanation of Solution
The only alkali earth metal in period 3 is magnesium. Its atomic number is 12 and its electronic configuration is as shown:
After losing 2 electrons, its electronic configuration will be:
Chapter 6 Solutions
Chemistry 2012 Student Edition (hard Cover) Grade 11
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- : Naming the Alkanes a) Write the IUPAC nomenclature of the compound below b) Draw 4-isopropyl-2,4,5-trimethylheptane, identify the primary, secondary, tertiary, and quaternary carbons. c) Rank pentane, neopentane and isopentane for boiling point. pentane: H3C-CH2-CH2-CH2-CH3 neopentane: CH3 H3C-C-CH3 isopentane: CH3 CH3 H3C-CH2-CH-CH3arrow_forwardAn essential part of the experimental design process is to select appropriate dependent and independent variables. True Falsearrow_forward10.00 g of Compound X with molecular formula C₂Hg are burned in a constant-pressure calorimeter containing 40.00 kg of water at 25 °C. The temperature of the water is observed to rise by 2.604 °C. (You may assume all the heat released by the reaction is absorbed by the water, and none by the calorimeter itself.) Calculate the standard heat of formation of Compound X at 25 °C. Be sure your answer has a unit symbol, if necessary, and round it to the correct number of significant digits.arrow_forward
- need help not sure what am doing wrong step by step please answer is 971A During the lecture, we calculated the Debye length at physiological salt concentrations and temperature, i.e. at an ionic strength of 150 mM (i.e. 0.150 mol/l) and a temperature of T=310 K. We predicted that electrostatic interactions are effectively screened beyond distances of 8.1 Å in solutions with a physiological salt concentration. What is the Debye length in a sample of distilled water with an ionic strength of 10.0 µM (i.e. 1.00 * 10-5 mol/l)? Assume room temperature, i.e. T= 298 K, and provide your answer as a numerical expression with 3 significant figures in Å (1 Å = 10-10 m).arrow_forwardInfluence of salt concentrations on electrostatic interactions 2 Answer is 2.17A why not sure step by step please What is the Debye length in a concentrated salt solution with an ionic strength of 2.00 mol/l? Assume room temperature, i.e. T= 298 K, and provide your answer as a numerical expression with 3 significant figures in Å (1 Å = 10-10 m).arrow_forwardThe name of the following molecule is: Νarrow_forward
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