CHEMISTRY HIGH SCHOOL

A covalent bond in which electrons are shared unequally isa. polar.
b. a double bond.
c. ionic.
d. polyatomic.

Answers

Answer 1
Answer: Covalentbonds = sharing of electrons between two atoms of the same elements or elementsclose to each other on the periodic table. Usually they are metals sometimesnon-metals. In polar bonds electrons areshared unequally. Non polar bonds share electrons equally.
Answer 2
Answer:

Final answer:

A covalent bond where electrons are shared unequally is known as a polar bond. This unequal sharing occurs due to differences in electronegativity between the two atoms involved in the bond.

Explanation:

A covalent bond in which electrons are shared unequally is defined as a polar bond. This corresponds to option a) polar. This occurs because one atom is more electronegative and pulls the shared electron pair towards its nucleus making the bond polar, having a partial positive and partial negative end. Option b) a double bond, refers to a covalent bond where two pairs of electrons are shared between atoms. Option c) ionic refers to a bond where electrons are completely transferred from one atom to another and option d) polyatomic refers to a molecule that consists of more than two atoms.

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When magnesium burns in Cl2 , it forms magnesium chloride.Which element is reduced?

Which of these take place during a chemical change

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Whenever a chemical reaction happens, two chemicals push each other around and something happens. Each reaction happens differently with each different chemical. Two things can make stuff explode or fizz, it could also smoke like in a volcano experiment.

Determine # of moles 3.55× 10(23 squared ) atoms Ne

Answers

1.0 moles --------------6.02 x 10²³ atoms
? moles ----------------- 3.55 x 10²³ atoms

moles = ( 3.55 x 10²³ ) x 1.0 / 6.02 x 10²³

moles = 3.55 x 10²³ / 6.02 x 10²³

= 0.589 moles of Ne

hope this helps!

Boyle's law deals what quantities?

Answers

Boyle's law deals with pressure and volume.

What is Boyle's law?

Robert Boyle studied the relationship between the pressure p and the volume V of a confined gas held at a constant temperature.

Boyle observed that the product of the pressure and volume are observed to be nearly constant.

The product of pressure and volume is exactly a constant for an ideal gas.

                                                    PV = constant

As per Boyle’s law, any change in the volume occupied by a gas (at constant quantity and temperature) will result in a change in the pressure exerted by it. In other words, the product of the initial pressure and the initial volume of a gas is equal to the product of its final pressure and final volume (at constant temperature and number of moles).

Therefore, Boyle's law deals with pressure and volume.

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Boyle's law states that P1V1= P2V2.
Pressure= P 
Volume= V

Pressure involves torr, atm, kPa,etc..
Volume involves mls/ milliter, l / liter, etc...

Silver-plated utensils were popular before stainless steel became widely used to make eating utensils. Silver tarnishes when it comes in contact with hydrogen sulfide, H2S, which is found in the air and in some foods. However, stainless steel does not tarnish when itcomes in contact with hydrogen sulfide.

76 In the space in your answer booklet, draw a Lewis electron-dot diagram for the compound that tarnishes silver. [1]

77 In the ground state, an atom of which noble gas has the same electron configuration as the sulfide ion in Ag2S? [1]

Answers

Silver tarnishes due to the chemical reaction with hydrogen sulfide, forming silver sulfide. A Lewis dot structure for H2S shows sulfur at the center bonded to two hydrogen atoms. The sulfide ion in Ag2S has the same electron configuration as the noble gas neon.

The chemical compound that tarnishes silver is hydrogen sulfide, H2S. In terms of Lewis electron dot structures, hydrogen sulfide, H2S, would be modelled as an S atom at the center surrounded by two H atoms. Each H atom is bonded to the S atom by a shared pair of electrons, represented by a single line. In the sulfide ion S2- (which is a part of Ag2S), there are additional 2 electrons to the sulfur atom, making a total of 8 valence electrons, which is the same electron configuration as the noble gas neon.

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Final answer:

The compound that tarnishes silver is silver sulfide (Ag2S), and its Lewis electron-dot diagram can be drawn by representing the valence electrons. The sulfide ion in Ag2S has the same electron configuration as the noble gas argon (Ar).

Explanation:

A Lewis electron-dot diagram is a representation of the valence electrons in an atom or a compound. The compound that tarnishes silver is silver sulfide (Ag2S). The Lewis electron-dot diagram for Ag2S can be drawn by representing the valence electrons of each element.

The sulfide ion in Ag2S has the same electron configuration as the noble gas argon (Ar). This means that the electron configuration of the sulfide ion is 1s2 2s2 2p6 3s2 3p6.

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What is the change in heat energy when 64.82 g of aluminum metal at 100.0oC is cooled to 82.0 °C? The specific heat of aluminum is 0.897 J /g °C.

Answers

Given:

64.82 g of aluminum metal

100.0oC is cooled to 82.0 °C

specific heat of aluminum is 0.897 J /g °C.

Required:

Change in heat energy

Solution:

This can be solved through the equation H = mCpT where H is the heat, m is the mass, Cp is the specific heat and T is the change in temperature.

The specific heat of the water is 4.18 J/g-K

Plugging in the values into the equation

H = mCpT

H = (64.82) (0.897 J /g °C) (82 – 100)

H = -1,046.6 J

Which of these is always equal to the molar mass of any element?its atomic number
its atomic weight
its atomic formula
its atomic structure

Answers

Answer: Option (b) is the correct answer.

Explanation:

Atomic weight is also known as atomic mass or molar mass of an atom.

Atomic mass means the sum of total number of protons and neutrons present in an atom.

For example, atomic mass of HCl is atomic mass of hydrogen + atomic mass of chlorine.

That is, atomic mass of HCl is 1.01 g/mol + 35.453 g/mol = 36.463 g/mol

Thus, we can conclude that molar mass of any element is always equal to its atomic weight.

atomic weight, as it is essentially the same as mass
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