How many grams of salt are in 1 kilogram of seawater with average salinity? quizzlet?

The bond between Na + and Cl- ions is an ionic bond

To achieve stability, atoms with low ionization energy such as Na atoms will release electrons and bind to atoms with high-affinity energy such as Cl atoms

[tex]\boxed{\boxed{\bold{Further~explanation}}}[/tex]

Atoms have different stability. Unstable atomic atoms will try to form stable electron configurations like those of noble gases. Where noble gases have the number of outer electrons 2 or 8

The formation of electron configurations such as noble gases can be done by forming shared ions or electron pairs

Atoms with high ionization energy and atoms that are difficult to draw electrons will form bonds with shared electron pairs (electrons can be from one atom or two atoms attached)

In forming ions, atoms will release or attract electrons

Ion bonds occur because atoms that have low ionization energy (easily release electrons) form a + ion, and these electrons are bound by atoms that have large affinity energy (easily pulling electrons)

Generally, ionic bonds occur in metal and nonmetallic elements. Metal elements have low ionization energy and non-metallic elements have a high electron affinity

In Na atoms, to achieve stability, Na will release one electron so that it has an electron configuration like noble gas Ne

Na: 2 8 1

Ne: 2 8

so that it becomes a Na + ion

While the Cl atom will bind one electron, so it has an electron configuration like noble gas Ar

Cl: 2 8 7

Ar: 2 8 8

So that it becomes a Cl- ion

Finally, there will be an attractive attraction between positive ions and negative ions and NaCl is formed

So the bond between Na + and Cl- ions is an ionic bond

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the octet rule

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Keywords: ionic and covalent bonds, the octet rule, noble gases, electron configurations

[tex]\boxed{{\text{Ionic bond}}}[/tex] holds [tex]{\text{N}}{{\text{a}}^ + }[/tex] and [tex]{\text{C}}{{\text{l}}^ - }[/tex] together in table salt.

Further Explanation:

Chemical bond:

The attraction between atoms, molecules or ions which results in the formation of chemical compounds is known as a chemical bond. It is formed either due to electrostatic forces or by the sharing of electrons. There are many strong bonds such as ionic bonds, covalent bonds, and metallic bonds while some weak bonds like dipole-dipole interactions, London dispersion forces, and hydrogen bonding.

Ionic compound:

Ionic compounds are the compounds that are formed from the ions of the respective species. Ions are the species that are formed either due to loss or gain of electrons. A neutral atom forms cation by the loss of electrons and anion by the gain of electrons.

Following are some of the properties of ionic compounds:

1. These are hard solids.

2. High melting and boiling points.

3. Good conductors of heat and electricity.

4. High enthalpy of fusion.

Sodium (Na) is a metal while chlorine (Cl) is a non-metal. So Na loses one of its valence electrons by virtue of its low ionization enthalpy and [tex]{\text{N}}{{\text{a}}^ + }[/tex] is formed. Due to high electronegativity of chlorine, Cl gains an electron and forms [tex]{\text{C}}{{\text{l}}^ - }[/tex] . The electrostatic attraction between [tex]{\text{N}}{{\text{a}}^ + }[/tex] and [tex]{\text{C}}{{\text{l}}^ - }[/tex] results in the formation of ionic bond between them and thus NaCl is an ionic compound. (Refer to the attached image)

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Answer details:

Grade: High School

Subject: Chemistry

Chapter: Ionic and covalent compounds

Keywords: Na+, Cl-, table salt, chemical bond, ionic bond, anion, cation, attraction, electrostatic forces, mutual sharing of electrons, gain, loss, electrons, metal, non-metal, Na, Cl, sodium, chlorine.

Answer:

86g of [tex]Al_{2}O_{3}[/tex]

Explanation:

1. The balanced chemical equation is:

[tex]_{4}Al+_{3}O_{2}=_{2}Al_{2}O_{3}[/tex]

2. Use the stoichiometry of the reaction to calculate how many moles of aluminum oxide can be formed.

If the oxygen is in excess it means that the aluminum is the limiting reagent and the calculations must be made using the mass of aluminum.

[tex]45.3gAl*\frac{1molAl}{27gAl}*\frac{2molesAl_{2}O_{3}}{4molesAl}=0.84molesAl_{2}O_{3}[/tex]

3. Use the molar mass of the [tex]Al_{2}O_{3}[/tex] to calculate how many grams of aluminum oxide can be formed:

[tex]0.84molesAl_{2}O_{3}*\frac{102gAl_{2}O_{3}}{1molAl_{2}O_{3}}=86gAl_{2}O_{3}[/tex]

Answer:  Flash Point

Explanation:  Volatile substance is the substance which can easily catch fires.

Thus, there must be a point to define that temperature when the volatile substance catches fire given enough source of flame. This point is known as Flash Point.

Thus, Flash point is defined as the lowest temperature at which the flammable or volatile liquid catches fire and convert itself into the ignitable mixture when enough source of ignition is given.

C = 12.818 mg CO2 (1 mmol CO2/44 mg CO2) (1 mmol C/1 mmol CO2) = 0.29 mmol

H = 3.675 mg of H2O (1 mmol H2O/18 mg H2O) (2 mmol H/1 mmol H2O) = 0.41 mmol

N = (4.725 mg – 0.29 * 12 – 0.41 * 1) * (1 mmol/14 mg) = 0.06 mmol

Divide everything by the smallest number:

C = 0.29/0.06 = 4.8 ~ 5

H = 0.41/0.06 = 6.8 ~  7

N = 0.06/0.06 = 1

Empirical formula is:

C5H7N

True, the normal boiling point of water is 100°C and it is a physical property. Liquids like glycerol have higher boiling points. The kinetic molecular theory describes particles in a solid as closely packed and vibrating in place.

The statement that the normal boiling point of water is 100°C is true, and it is indeed a physical property of the substance water. The boiling point is a characteristic temperature where a liquid turns into a gas, and it varies depending on the pressure of the environment. Water boils at 100°C at 1 atmosphere of pressure, which is the standard pressure at sea level. However, this boiling point can change if the pressure differs; for example, at a pressure greater than 1 atm, water's boiling point will be higher than 100°C.

An example of a liquid that boils at a temperature higher than the boiling point of water is glycerol, which boils at about 290°C. This is significantly higher than water's boiling point due to the stronger intermolecular forces in glycerol compared to water. The kinetic molecular theory explains the behavior of particles in solids, liquids, and gases. When describing a solid under this theory, the particles are closely packed together, vibrating in place, which gives solids a fixed shape and volume.

Calcination and roasting are processes used in metallurgy to convert ores into a more useful form. Calcination involves heating a substance to remove volatile impurities, while roasting is the process of heating an ore to decompose sulfides and remove impurities.

Calcination and roasting are both processes used in metallurgy to convert ores into a more useful form.

Calcination involves heating a substance in the presence of air or oxygen, which leads to the removal of any volatile impurities, such as water or carbon dioxide, and the conversion of carbonates into oxides. This process is commonly used in the production of lime and cement.

Roasting, on the other hand, is the process of heating an ore in the presence of excess air or oxygen.

This allows the decomposition of sulfides into oxides and the removal of any volatile impurities.

Roasting is often used in the extraction of metals, such as iron, where the ore is heated to convert it into a more suitable form for further processing.

Astronauts brought back 500 lbs rock samples from the moon they brought back 227 kilograms of sample. The correct option is D.

An astronaut is characterized as "a person who travels further than the Earth's atmosphere" or "a spaceflight trainee."

The ultimate goal of getting into space is to work and live there, just as the eventual aim of exploring the New World was colonization, rather than simply sitting back on Earth and thinking about what automated spacecraft report back.

It's one of the most difficult jobs to obtain in the world. Even if you are chosen to be an astronaut, you are not pretty much assured a trip to space.

Hundreds of humans have traveled to space, but many of those chosen as "astronauts" never made it.

As the astronaut brought 550 lbs sample,

Thus, the correct option is D.

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Your question seems incomplete, the missing options are:

A. 500 kg

B. 1,100 kg

C. 498 kg

D. 227 kg

Explanation:

An isotope is defined as the specie which contains same number of protons but different number of neutrons.  

For example, [tex]^{12}_{6}C[/tex] and [tex]^{13}_{6}C[/tex] are isotopes.

Number placed at the bottom of an element's symbol represents atomic number whereas number placed at the top of an element's symbol represents atomic mass (sum of total number of protons and neutrons).

Therefore, we can conclude that requirement for two atoms to be isotopes of each other is that they should contain same number of protons.

The basic requirements for atoms to be an isotope is that:

1. They must have the same atomic number (i.e proton)

2. They must have different mass number.

Isotopy is a phenomenon where by two or more atoms have the same atomic number (i.e proton) but different mass number due to the difference in the neutron number of the atoms involved. The atoms involved in Isotopy are called isotopes.

Chlorine for example has 2 isotopes ³⁵₁₇Cl and ³⁷₁₇Cl.

Considering the two isotopes given above, we can see clearly that the two isotopes both have the same atomic number (i.e proton) but different mass number.

NOTE: The difference in mass number is due to the difference in the neutron number of the atoms.

Therefore, the basic requirement for atoms to be called isotope is that:

1. They must posses the same atomic number (i.e proton)

2. They must have different mass number. This is due to the difference in the neutron number of the atoms.

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The statements that are consistent with kinetic-molecular theory includes:

The theory of Kinetic Molecular focuses on the average kinetic energy of the molecules with respect to temperature.

The theory explains that the absolute temperature increases, the kinetic energy also increases.

Therefore, the Option A, C and D is correct.

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Final answer:

The ratio of hydrogen to oxygen atoms in water is a consistent 2:1. In starch, this ratio is variable and is influenced by the starch molecule's structure. Unlike the fixed ratio in water, the complexity of starch polymers means it does not have a simple, fixed ratio of hydrogen to oxygen atoms.

Explanation:

The ratio of hydrogen (H) atoms to oxygen (O) atoms in water (H2O) is always 2:1, as clearly depicted in Figure 6.1.1 Water Molecules. This means that for every oxygen atom, there are two hydrogen atoms. In the context of mass, this ratio implies that one oxygen atom weighs 16 times as much as one hydrogen atom because the atomic mass of oxygen is 16 amu and that of hydrogen is 1 amu.

Starch, which is a carbohydrate, contains carbon, hydrogen, and oxygen atoms. The ratio of hydrogen to oxygen atoms in starch is not as straightforward as in water. Upon heating starch, it is observed that water condenses, and a black, charred mass of carbon remains, indicating the presence of hydrogen and oxygen in the starch. The molecular structure of starch, exemplified by amylose with its a-1,4-glycosidic linkages, features multiple hydroxyl (-OH) groups that can establish hydrogen bonds with water molecules, demonstrating that the ratio of hydrogen to oxygen in starch is variable due to the structural complexity of starch polymers.

Therefore, while the ratio of hydrogen to oxygen atoms in water is a consistent 2:1, the ratio in starch is variable and depends on the particular starch polymer. Moreover, the ratio of these atoms in starch is more complex than in water due to the presence of carbon and the polymeric nature of starch.

Due to variations in their electro-negativities, two atoms share a pair of electrons in a polar covalent bond in an uneven manner. The bound atoms develop fractional positive and negative charges as a result of the unequal distribution of electrons. Here the correct option is A.

The hydrogen atom has a little positive charge due to the fact that it cannot attach to the negative electron bones as tightly as other elements can. There is an uneven distribution of charges in these polar covalent complexes. Positive or negative molecules can be covalently attached to polar surfaces.

A polar covalent bond is one in which there is an electronegativity difference between the atoms of between 0.4 and 1.7. A polar covalent link is a type of covalent bond in which the atoms are attracted to electrons in uneven amounts, resulting in unequal sharing.

Thus the correct option is A.

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Answer: Option C

Explanation:

A monkey can occupy two tropic level in a food chain. These two levels can be primary consumers or secondary consumers.

Monkeys are omnivores and they can eat meat and plant based food. Some of the monkeys can also eat eggs of bird.

If monkey will eat plants they will occupy a place of primary consumer and if it will eat meat then it be considered as secondary consumer.

hence, correct answer is option C

In the reaction of 2Al and Fe2O3, 7.56 moles of Al reacted with 3.76 moles of Fe2O3. 385.4 g of Al2O3 were formed, and there was no excess Fe2O3 reagent left.

In this chemistry problem, we must use stoichiometry to determine the mass of the product and the amount of excess reagent. First, balance the equation: 2Al + Fe2O3 → Al2O3 +2Fe. From the equation, we can determine the stoichiometric relationship which is 2 mol of Al react with 1 mol of Fe2O3 to produce 1 mol of Al2O3.

Moles of Al = mass/molar mass = 204.19/26.98 = 7.56 moles. Moles of Fe2O3 = mass/molar mass =601/159.69 = 3.76 moles. As per the stoichiometric relationship, Al will be the limiting reagent and Fe2O3 will be in excess.

Using the limiting reagent, we can calculate the mass of Al2O3 formed: moles of Al2O3 = moles of Al/2 = 7.56/2 = 3.78 mol. So, mass = moles x molar mass = 3.78 x 101.96 = 385.4g.

To find the number of moles of Fe2O3 used, we divide the moles of Al by 2: 3.78 moles. The excess reagent left = initial moles – used moles = 3.76 – 3.78 = -0.02moles. Because no reagent can be left in negative amount, the excess Fe2O3 is 0.

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The mass of Al₂O₃ formed and the excess reactant after the reaction can be calculated by identifying the limiting reactant and calculating the theoretical yield of the reaction. Finally, the amount of reactant used is subtracted from the initial amount for the excess reactant.

The thermite reaction between aluminum (Al) and iron(III) oxide (Fe₂O₃) produces aluminum oxide (Al₂O₃) and iron (Fe). Given the balanced thermochemical equation for the reaction: 2Al + Fe₂O₃ → Al₂O₃ + 2Fe, we can calculate the stoichiometry to find the amount of Al₂O₃ formed and the excess reagent left over.

First, we calculate the molar mass of Al, Fe₂O₃, and Al₂O₃ and then calculate the number of moles of Al and Fe₂O₃ in the given masses. Then we identify the limiting reactant in the reaction, which is the reactant that gets completely used up in the reaction determining the maximum amount of product that can be formed. Next, we determine the theoretical yield, the amount of Al₂O₃ that would be formed if the reaction went to completion. Finally, we subtract the amount reacted from the initial amount to determine the excess reagent.

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Flame tests can be useful for identifying individual metal ions through the unique colors they emit, but they have limitations when dealing with mixtures where emission spectra might overlap. For complex mixtures, a qualitative analysis with successive steps is more effective.

Flame tests can be useful for detecting metal ions in a mixture, as different metal ions will emit different wavelengths of light when they return to their ground states, producing varying flame colors. However, this method has its limitations as the flame colors from a mixture of metal ions might overlap and make it difficult to distinguish between them. In the case of a complex mixture, a qualitative analysis through successive precipitation would help in identifying the metal ions by gradually eliminating ions in various steps.

Moreover, specific metals known as alkali metals or alkaline earth metals, such as calcium, strontium, and barium, impart unique colors to the flame, aiding in their identification. For example, calcium and strontium produce shades of red, while barium produces a green color. These distinct emissions form part of the emission spectrum of the elements and can be used to identify them.

Answer:

After the chemical formula for each compound

Explanation:

I don't really know how to explain it besides that it's part of the formula rules and is the right a pex answer

The atom with 45 neutrons and 35 electrons (and therefore 35 protons) has a mass number of 80,  which is obtained by adding the number of protons and neutrons.

To determine the mass number of an atom with 45 neutrons and 35 electrons, it's important to remember that an atom, in its electrically neutral state, has an equal number of protons and electrons. In this scenario, the atom has 35 protons because it has 35 electrons.

The mass number of an atom is calculated by adding the number of protons and neutrons together. So, for this specific atom, the mass number is calculated as 35 (protons) + 45 (neutrons), which totals 80. This mass number signifies the sum of particles in the atom's nucleus, which plays a fundamental role in defining its chemical properties and behavior.

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The complete balanced chemical equation for this is:

3KOH  +  H3PO4  -->  K3PO4  +  3H2O

First we calculate the number of moles of H3PO4:

moles H3PO4 = 0.650 moles / L * 0.024 L = 0.0156 mol

From stoichiometry, 3 moles of KOH is required for every mole of H3PO4, therefore:

moles KOH = 0.0156 mol H3PO4 * (3 moles KOH / 1 mole H3PO4) = 0.0468 mol

Calculating for volume given molarity of 0.350 M KOH:

Volume = 0.0468 mol / (0.350 mol / L) = 0.1337 L = 133.7 mL

Answer:

133.7 mL KOH

Approximately 133.7 mL of 0.350 M KOH is required to react completely with 24.0 mL of 0.650 M H3PO4.

To determine the volume of 0.350 M KOH required to react completely with 24.0 mL of 0.650 M H3PO4, we need to use the balanced chemical equation for the reaction.

The balanced equation is:

H3PO4 + 3KOH → K3PO4 + 3H2O

The molar ratio between H3PO4 and KOH is 1:3. Using the given concentration and volume, we can calculate the moles of H3PO4:

Moles of H3PO4 = (0.650 M) x (0.0240 L) = 0.0156 mol

Since the molar ratio is 1:3, the moles of KOH required will be 3 times the moles of H3PO4:

Moles of KOH = (0.0156 mol) x 3 = 0.0468 mol

Next, we can use the concentration of KOH to calculate the volume of 0.350 M KOH required:

Volume of KOH = Moles of KOH / Concentration of KOH

Volume of KOH = 0.0468 mol / 0.350 M = 0.1337 L = 133.7 mL

Therefore, approximately 133.7 mL of 0.350 M KOH is required to react completely with 24.0 mL of 0.650 M H3PO4.

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Lake Lewisville typically contains more than 142 billion gallons of water at its normal elevation, calculated by multiplying its storage volume of approximately 436,000 acre-feet by the gallons-per-acre-foot conversion factor.

The student has asked about the volume of water in Lake Lewisville. Unfortunately, the exact amount of water in Lake Lewisville can vary due to several factors, including seasonal rainfall, water usage, and conservation efforts. However, it's known that the lake has a normal storage volume of approximately 436,000 acre-feet at its normal elevation of 522 feet above mean sea level according to official data. Since one acre-foot is equal to about 325,851 gallons of water, by multiplying the acre-feet by this conversion factor, it can be estimated that Lake Lewisville typically holds more than 142 billion gallons of water when at normal levels.

A critical biotic factor in Yellowstone National Park is its proximity to water. The correct option is E.

Biotic factors are those factors that are living and that can grow and reproduce. They are plants, animals, algae, and other living organisms. They are divided into producers, consumers, and decomposers. These can reproduce, and they are taken from the biosphere.

Yellowstone National Park is a unique biotic reserve, and it was preserved from prehistoric times. It is a volcanic area. It has rich wildlife and nature.

Likewise, it is a critical biotic reserve because it contains many creatures that are endemic to them, and it has other biotic things. It has many valleys and waterfalls.

Thus, the correct option is E. proximity to water.

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Answer: The electronegativities of the atoms in a non-polar covalent bond is equal.

Explanation:

A non-polar covalent bond is defined as the bond which is formed between the atoms having no difference in electronegativity between the atoms forming a bond. Thus, the two atoms have the same value of electronegativity. For Example: [tex]H_2,O_2[/tex] etc...

A polar covalent bond is defined as the bond which is formed between the atoms having some difference in electronegativity between the atoms forming a bond. Thus, the two atoms have different value of electronegativity. For Example: [tex]HCl, H_2O[/tex] etc...

Hence, the electronegativities of the atoms in a non-polar covalent bond is equal.