1. A rock has a mass of 42.0 grams and a volume of 9.0 cm³. Calculate the density (show
all work and units). (1.5 pts)

Answer:

The molecular formula for sulfur hexafluoride is SF6 S F 6 , in which there is 1 sulfur atom and 6 fluorine atoms.

Explanation:

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According to the given question H₂O and HCl are the two formulas which represent two polar molecules.

H₂O is polar molecule because- A water molecule has two poles: a positive charge on the hydrogen pole (side) and a negative charge on the oxygen pole due to the unequal sharing of electrons between the atoms and the asymmetrical form of the molecule (side). The water molecule is referred to as electrically polar.

HCl is a polar molecule - Because chlorine is more electronegative than hydrogen, it draws the bound electron pair somewhat closer to it and obtains a partial negative charge, while hydrogen gains a partial positive charge, making HCl (hydrochloric acid) a polar molecule.

Therefore, H₂O and HCl represents two polar molecules.

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Your question is incomplete please find the complete question over the internet.

Answer:

with what may I ask?

Explanation:

enshdufhd

Answer:

No teooobh the awnser is carrot

Explanation:

Answer:

866.142 inches

Explanation:

By formula

Answer:

c. 2s2 2p5

Explanation:

2s2 2p5 has 7 valence electrons and only needs one electron to complete the octet.  This element will be the most electronegative.

Answer:

li3po4

Explanation:

Yes, s = u+v/2+t, where s is the displacement, u is the beginning velocity, v is the end velocity, and t is the time required, is the equation of motion for a body travelling with uniform acceleration.

The basic law of motion, which states that a body's rate of change in displacement is directly proportional to its velocity, provides the basis for this equation. The equation of motion for a body travelling with constant acceleration, s = ut + 1/2at2, may be used to derive it.

The equation of motion for a body travelling with uniform acceleration is given by replacing the value of an as (v-u)/t and getting s = u+v/2+t. This formula is only accurate when the body's acceleration is constant and uniform.

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There are approximately 3.47 x 10²² molecules in 5.657g H₂SO₄.

To calculate the number of molecules in 5.657g H₂SO₄, we need to use the Avogadro's number and the molar mass of H₂SO₄.

The molar mass of H₂SO₄ is 98.079 g/mol.

We need to calculate the number of moles of H₂SO₄:

Number of moles = mass/molar mass

                             = 5.657g / 98.079 g/mol

                            = 0.05767 mol.

Then, we can use Avogadro's number, which is 6.022 x 10²³ molecules/mol, to find the number of molecules:

Number of molecules = number of moles x Avogadro's number

                                   = 0.05767 mol x 6.022 x 10²³ molecules/mol

                                    = 3.47 x 10²² molecules

To calculate the number of molecules in a given sample of a substance, you need to use the Avogadro's number, which is 6.022 x 10²³ molecules/mol. This means that one mole of a substance contains 6.022 x 10²³ molecules.

We are given the mass of H₂SO₄, which is 5.657 g. To calculate the number of molecules, we first need to determine the number of moles of H₂SO₄ in the given sample. The molar mass of H₂SO₄ is 98.08 g/mol. So, the number of moles of H₂SO₄ can be calculated as follows:

moles = mass / molar mass

moles = 5.657 g / 98.08 g/mol

moles = 0.0576 mol

Now, we can use the Avogadro's number to determine the number of molecules of H₂SO₄ in 0.0576 moles:

number of molecules = moles x Avogadro's number

number of molecules = 0.0576 mol x 6.022 x 10²³ molecules/mol

number of molecules = 3.47 x 10²² molecules

As a result, in 5.657 g of the material, there are roughly 3.47 x 1022 molecules of H₂SO₄.

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Answer:Molecular Formula SO2

Hybridization Type sp2

Bond Angle 119o

Geometry V-Shaped or Bent

Explanation:

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The term that the scientist would use in this case is partial pressure. Option D

The pressure that one particular gas component within a mixture of gases exerts is referred to as partial pressure. It is the pressure that the gas would experience at the same temperature if it were the only thing in the entire volume.

When researching gas mixtures, such as in gas laws, gas phase equilibria, and gas collecting methods, partial pressures are extremely crucial for the gas.

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Answer:

Title: Determination of Chloride Concentration in Water

Abstract:

This lab report presents a method for determining the chloride concentration in water samples. The analysis is based on the principle of titration using a silver nitrate solution. By titrating the water sample with the silver nitrate solution, the endpoint is determined using a silver chromate indicator, indicating the completion of the reaction between chloride ions and silver ions. From the volume of silver nitrate solution required to reach the endpoint, the chloride concentration in the water sample can be calculated.

Introduction:

Chloride is a common anion found in water and its concentration is important for various purposes, including environmental monitoring, drinking water quality assessment, and industrial processes. This lab aims to determine the chloride concentration in a water sample using a titration method.

Materials and Equipment:

1. Water sample

2. Silver nitrate solution (standardized)

3. Sodium chromate indicator

4. Burette

5. Erlenmeyer flask

6. Pipettes

7. Volumetric flask

8. Distilled water

9. White tile

Procedure:

1. Preparation of Silver Nitrate Solution:

  - Prepare a standard silver nitrate solution with a known concentration.

  - Ensure the solution is properly labeled and stored in a dark bottle to minimize exposure to light.

2. Sample Preparation:

  - Collect a representative water sample in a clean container.

  - If necessary, filter the water sample to remove any particulate matter.

  - Transfer an appropriate volume of the water sample (usually 50 mL) into a clean and dry Erlenmeyer flask.

3. Titration:

  - Add a few drops of sodium chromate indicator to the water sample in the flask.

  - Fill the burette with the standardized silver nitrate solution.

  - Slowly add the silver nitrate solution from the burette into the water sample, while swirling the flask.

  - Continue the addition of silver nitrate solution until the appearance of a reddish-brown color, indicating the endpoint of the titration. Record the volume of silver nitrate solution used.

4. Blank Determination:

  - Perform a blank titration using distilled water instead of the water sample.

  - Follow the same procedure as described in step 3 to determine the volume of silver nitrate solution used.

5. Calculation:

  - Calculate the chloride concentration in the water sample using the formula:

    Chloride concentration (mg/L) = (V - V0) x M x 35.45 / V1

    Where:

    - V is the volume of silver nitrate solution used for the water sample (mL)

    - V0 is the volume of silver nitrate solution used for the blank (mL)

    - M is the molarity of the silver nitrate solution (mol/L)

    - V1 is the volume of the water sample used (L)

Results and Discussion:

- Record the volumes of silver nitrate solution used for both the water sample and the blank.

- Calculate the chloride concentration in the water sample using the provided formula.

- Discuss any sources of error and potential improvements in the procedure.

- Compare the obtained chloride concentration with relevant guidelines or standards to assess the water quality.

Conclusion:

In this lab, the chloride concentration in a water sample was successfully determined using a titration method with silver nitrate solution. The results obtained can be used for water quality assessment and further analysis. It is important to follow proper laboratory techniques and precautions while performing this experiment.

Explanation:

Answer:

Mercury fulminate is very sensitive to shock, friction, and sparks. ... put mercury fulminate into blasting caps for detonating dynamite.

Explanation:

According to the given statement Na of the atoms listed below has the largest radius.

An atom is made up of a core nucleus and one or even more electrons with negative charges that orbit it. The positively charged, comparatively hefty protons and neutrons that make it up the nucleus may be present. The fundamental building components of matter are atoms.

Atoms are made up of a nucleus in the center that is surrounded by protons, neutrons, and electron. Uranium is divided into smaller atoms during the fission process, creating new atoms. The creation or atoms in enormous numbers can be seen in the Big Bang and Supernova phenomena.

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Answer:

Is zygote fungi an option??

Answer:

zygote fungi

Explanation:

i got the answer right

Answer: During aerobic respiration, catabolic reactions convert larger complex organic molecules into ATP, the chemical that drives most physiological processes in the body.

Explanation:

The isotope that has the greater abundance is lithium-7

To know which isotope has the greater abundance, we shall detertmine the abundance of each isotope. This can be obtained as follow:

Average atomic mass = [(Mass of A × A%) / 100] + [(Mass of B × B%) / 100]

6.94 = [(6.02 × A) / 100] + [(7.02 × (100 -A) / 100]

6.94 = 0.0602A + 7.02 + 0.0702A

Collect like terms

6.94 - 7.02 = 0.0602A - 0.0702A

-0.08 = -0.01A

Divide both sides by -0.01

A = -0.08 / -0.01

A = 8%

Thus,

B = 100 - A

B = 100 - 8

B = 92%

From the above calculations, we obtained:

Thus, we can conclude that lithium-7 has the greater abumdance

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The limiting reactant is iron ore, the theoretical yield of iron metal is 701.344 kg, and the theoretical yield of carbon dioxide is 413.292 kg.

From the equation of the reaction:

\(2 Fe_2O_3(s) + 3 C(s) --- > 4 Fe(s) + 3 CO_2(g)\)

The mole ratio of iron ore to carbon is 2:3.

Mole of 1000 kg of iron ore = 1000000/159.69

                                          = 6,262 moles

Mole of 120 kg carbon = 120000/12

                                 = 10,000 moles

Thus, it appears that the carbon is in excess while the iron ore is limited in availability.

The mole ratio of the iron ore and the iron produced is 1:2. Thus, the equivalent number of moles of iron produced will be:

              6,262 x 2 = 12,524 moles

Mass of 12,524 moles of iron = 12,524 x 56

                                                = 701,344 g or 701.344 kg

Thus, the theoretical yield of iron is 701.344 kg.

The mole ratio of the iron ore and the carbon dioxide produced is 2:3. The equivalent mole of carbon dioxide produced will be:

         6,262 x 3/2 = 9,393 moles

Mass of 9,393 moles carbon dioxide = 9,393 x 44

                                                         = 413,292 or 413.292 kg

The theoretical yield of carbon dioxide is, therefore, 413.292 kg.

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This question is describing two chemical equations whereby the concentration of ammonia has to be determined. The first reaction is between 25.00 mL of ammonia and 50.00 mL of 0.100-M HCl whose excess was neutralized with 21.50 mL of 0.050-M Na₂CO₃ and thus, the concentration ammonia in the cloudy solution was determined as 0.114 M.

First of all we need to go over the titration of the excess HCl with Na₂CO₃ by writing the chemical equation it takes place when they react:

\(2HCl+Na_2CO_3\rightarrow 2NaCl+CO_2+H_2O\)

Whereas the mole ratio of HCl to Na₂CO₃ is 2:1 and the volume of the HCl leftover is determined as follows:

\(V_{HCl}^{leftover}=\frac{2*0.050M*21.50mL}{0.100M} =21.5mL\)

Next, we infer that the consumed volume of HCl by the ammonia solution was:

\(V_{HCl}^{consumed}=50.00mL-21.50mL=28.5 mL\)

Then, we write the chemical equation that takes place between ammonia and HCl:

\(HCl+NH_3\rightarrow NH_4Cl\)

Whereas the mole ratio is now 1:1, which means that the concentration of ammonia was:

\(M_{NH_3}=\frac{28.5mL*0.100M}{25.00mL}\\\\ M_{NH_3}=0.114M\)

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Answer:

3,4,5,6,7,8

Explanation:

Groups 13  - 18 are the main group on the periodic table

The group number corresponds the number of valence electrons they contains.

Valence electrons are the number of electrons in the outermost shell of an atom.

So group 13 - 18 corresponds to a valency of 3,4,5,6,7,8.

Groups with a valency of 8 are the noble gases.

Answer: Or mutations can involve the insertion of additional DNA bases or the deletion of existing DNA bases. Once a mutation occurs, if it changes the function of a resulting protein, a virus or organism is then changed.

Explanation:

Answer:

Or mutations can involve the insertion of additional DNA bases or the deletion of existing DNA bases. Once a mutation occurs, if it changes the function of a resulting protein, a virus or organism is then changed.

Explanation:

The answers include the following:

This is defined as any type of material or substance which is added to the soil to provide nutrients to plants and helps in its proper growth and development.

This comprises of organic nutrients which are found on the earth in the form of ores and are extracted through various techniques thereby making them naturally occurring.

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The order of reaction is defined as the power to which the concentration of the reactants are raised in the rate equation of the reaction.

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In both plants and animals, the process of cellular respiration may be broken down into the following steps: Oxygen + carbon dioxide.

When plant cells undergo cellular respiration, oxygen is taken in through the plant's leaves from the surrounding atmosphere, and carbon dioxide is exhaled back into the atmosphere as a byproduct of the process. In contrast, when animal cells undergo cellular respiration, oxygen is taken in through the lungs, and carbon dioxide is exhaled through the lungs.

Therefore, a quick review, throughout the process of cellular respiration, plants and animals trade oxygen and carbon dioxide with one another.

Therefore, we may draw the following conclusion: Oxygen + carbon dioxide is a shorthand for the process of cellular respiration in plants and animals.

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Answer:

Combustion

Explanation:

Combustion of Carbon in the presence of oxygen yields carbon dioxide.

Answer: D 45.1

Explanation:

100/106.441 x(3/2) x (31.9988) = 45.1

106.441 is the molar mass of NaClO3 from the periodic table

31.9988 is the molar mass of O2 from the periodic table

The number of moles of O₂ are needed to combine with 6.2 moles of phosphorus is 7.75 moles.

The number of moles of a substance can be calculated using stoichiometry. Stoichiometry is the quantitative relationship between the reactants and products of a specific reaction or equation.

According to this question, phosphorus reacts with oxygen gas as follows:

4P + 5O₂ → 2P₂O5

Based on the above equation, 4 moles of phosphorus reacts with 5 moles of oxygen.

If 6.2 moles of P reacts, 7.75 moles of oxygen gas will be produced.

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