The exercise involves determining the order of electrons based on their increasing electrostatic potential energy. The task is to assign numbers to electrons with different distances and charges relative to an anion. Here's the table and the instructions presented:**Instructions:**Decide how the electrons in the following table would be listed if they were listed in order of increasing electrostatic potential energy. Select "1" next to the electron with the lowest electrostatic potential energy, "2" next to the electron with the second lowest, and so on.**Table:**| electron | location | electrostatic potential energy ||----------|----------------------------------------------------|--------------------------------|| A | 4.6 nm from an anion with a charge of -3 | (choose one) || B | 4.6 nm from an anion with a charge of -1 | (choose one) || C | 6.4 nm from an anion with a charge of -1 | (choose one) || D | 4.6 nm from an anion with a charge of -2 | (choose one) |**Note:**The potential energy depends on both the charge of the anion and the distance from the electron. Generally, higher charges and shorter distances increase electrostatic potential energy.

Electrostatic potential energy depends on the charges and distance between the charges.

Decide how the electrons in the following table would be listed, if they were listed in order of increasing electrostatic potential energy. That is, select "1" next to the electron with the lowest electrostatic potential energy, select "2" next to the electron with the second lowest electrostatic potential energy, and so on. electrostatic electron location potential energy A 4.6 nm from an anion with a charge of -3 (choose one) e 4.6 nm from an anion with a charge of -1 (choose one) e dlo B 6.4 nm from an anion with a charge of -1 (choose one) e D 4.6 nm from an anion with a charge of -2 (choose one) e

Decide how the electrons in the following table would be listed, if they were listed in order of increasing electrostatic potential energy. That is, select "1" next to the electron with the lowest electrostatic potential energy, select "2" next to the electron with the second lowest electrostatic potential energy, and so on. electrostatic electron location potential energy A 4.6 nm from an anion with a charge of -3 (choose one) e 4.6 nm from an anion with a charge of -1 (choose one) e dlo B 6.4 nm from an anion with a charge of -1 (choose one) e D 4.6 nm from an anion with a charge of -2 (choose one) e

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

Which of the following ions has the largest radius? Br- S2- B3+ Mg2+ Li+
Indicate which choice is the best explanation for the following factual statement: the IE1 of lithium is lower than the IE1 of helium. A) The thrid electron in lithium goes into a new shell further away from the nucleus. This shell will be easier to remove an electron from, and therefore the IE1 is lower. B) The third proton pulls on the extra electron harder, thus lowering the IE1. C) Extra electrons always increase the electron-electron repulsion so the IE1 simply goes down. D) None of the above
What has the highest number valence electrons: N, Ca, O, As, or I?
1. Iron (III) chloride, FeCl; is an orange to brown-black solid at room temperature. It is used in drinking water production and sewage water treatment as well as catalyst for several chemical reactions. It is also non-combustible but highly corrosive to metals and tissue when wet. Write the electronic configuration of Iron and Chlorine atoms with Z= 22 and Z = 17 respectively. By referring to the given periodic table, compare the electronegativity and radius i. ii. size between iron and chlorine. Draw the Lewis structure of solid Iron (III) chloride. Using your knowledge of chemistry, determine the type of bonding present in Iron (III) chloride. iii. iv. 2. Rasputin, often referred to as “mad monk", was a very powerful figure in the life of Alexandra, the last Tsarina of Russia. His enemies decided to kill him using a cyanide compound. Cyanide compounds are deadly poisons. Using a bottle of potassium cyanide, they attempted to poison a cake and some wine. Rasputin ate the cake and…
Interpreting the electron configuration of an atom or atomic ion in noble-gas notation.
The work function (Φ) of a metal is the minimum energy needed to remove an electron from its surface. (a) Is it easier toremove an electron from a gaseous silver atom or from the sur-face of solid silver (Φ=7.59X10⁻¹⁹J; IE =731 kJ/mol)? (b) Explain the results in terms of the electron-sea model ofmetallic bonding
According to Coulomb's law, which ionic compound A-D has the smallest electrostatic potential energy (i.e., closest to zero)? The size of the anion increases in the order F < CI < Br < I. Select one: a. NaF O b. NaCl c. NaBr d. Nal e. All have the same potential energy because the anions all have -1 charges.
Compared to their neutral atom counterparts, ions will have smaller or larger atomic radii due to their losing or gaining electrons. According to Jensen (2010), Linus Pauling assigned the radius of the oxygen anion (O“) at 140 pm (larger than the neutral atom, 66 pm). On the other hand, the magnesium atom loses 95 ppm from its 160 ppm radius when it loses two valence electrons, forming the magnesium ion. What is the attractive force in nanoNewtons between the magnesium and oxygen ions? Use 2 decimal places. What is the repulsive force in nanoNewtons between the magnesium and oxygen ions? Use 2 decimal places.
Decide how the electrons in the following table would be listed, if they were listed in order of increasing electrostatic potential energy. That is, select "1" next to the electron with the lowest electrostatic potential energy, select "2" next to the electron with the second lowest electrostatic potential energy, and so on. electrostatic electron location potential energy A 5.0 nm from an anion with a charge of -1 (choose one) 1.6 nm from an anion with a charge of -1 |(choose one) v B 3.0 nm from an anion with a charge of -1 (choose one) C |(choose one) ♥ (choose one) 1 (lowest) 1.6 nm from an anion with a charge of -2 4 (highest) Continue Submit Assignmer 02021 McGraw Hill LLC. All Rights Reserved. Terms of Use I Privacy Center | Accessibilit DELL