What is the mass of 8 moles of sodium atoms

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0.0045 Inches are larger than centimeters.

Answer:

Q(total) = 283Kj

Explanation:

5 Heat Transitions …

Specific Heats => c(s) = 0.50cal/g∙⁰C,  c(l) = 1.0 cal/g∙⁰C, c(g) = 0.48 cal/g∙⁰C

Phase Transition Constants => ΔHᵪ = Heat of Fusion = 80 cal/g; ΔHᵥ = Heat of Vaporization = 540cal/g

Note => Phase change regions => no temp. change occurs when 2 phases are in contact (melting and evaporation). Only when single phase substance exists (s, l or g) does temperature change occur. See heating curve for water diagram. The increasing slopes are temperature change regions and heat flow is given by Q =mcΔT. The horizontal slopes are phase changes ( melting & evaporation) and heat flow for each of those regions is given by Q = m·ΔH. Each transition energy is calculated individually (see below) and added to obtain the total heat flow needed.

Q = mcΔT for temperature change regions of the heating curve (single phase only)

Q = m∙ΔH for phase transition regions of the heating curve (2 phases in contact)

Solid (ice) => Melting Pt  => Q(s) = mcΔT = (90.5g)(0.50cal/g∙⁰C)(11⁰C) = 478 cal

Melting (s/l) => Liquid (water) =>   Q(s/l) = m∙ΔHᵪ = (90.5g)(80cal/g) = 7240 cal

Liquid (water) => Boiling Pt => Q(l) = mcΔT = (90.5g)(1.0cal/g∙⁰C)(100⁰C) = 9050 cal

Boiling (l/g) => Gas (steam) => Q(l/g) = m∙ΔHᵥ = (90.5g)(540cal/g) = 48,870 cal

Gas (steam) => Steam @ 145⁰C => Q(g = mcΔT = (90.5g)(0.48cal/g∙⁰C)(45⁰C) = 2036 cal

Total Heat Transfer (Qᵤ) = Q(s) + Q(s/l) + Q(l) + Q(l/g) + Q(g)  

                                 = 478cal +7240cal + 9050 cal + 48,870cal + 2036cal

                                 = 67,674 cal x 4.184 j/cal = 283,148 joules = 283 Kj

Answer:

A. have subjects wear the shoes in an experimental trial to see if symptoms improve.

Answer: Option A

Explanation:

When the team of engineers decided to design a footwear that will help the people suffering from painful foot condition that is caused by footwear.

There are many steps in designing such a footwear that is helpful in treating this problem. First of all they will look the other footwear available in the market and the problem that is not being solved by the available option.

They will do research and study a bit of orthopedics to get more knowledge about the bones and shoes.

They will also estimate the cost of shoes. But they will not wait to see if the symptoms improve because it is the feedback step of the experiment.

Answer:

option c

Explanation:

rusting is the formation of ferrousoxide on the orin this can be prevented by applying some paint on the surface

Answer:

Answer:

The correct answer is "decreased genetic variation".

Explanation:

By introducing a new pesticide into the habitat of a beetle population what happens is that there will be a decrease in the genetic variation in this population. This is due to the harmful effect that pesticides have on insects and other living beings.

Have a nice day!

A new pesticide has been introduced to the habitat of this population of beetles. The effect of this environmental change is decreased genetic variation and the correct option is option 1.

Pesticides are chemical substances that are meant to kill pests. In general, a pesticide is a chemical or a biological agent such as a virus, bacterium, antimicrobial, or disinfectant that deters, incapacitates, kills, pests.

By their nature, pesticides are potentially toxic to other organisms, including humans, and need to be used safely and disposed of properly. They are among the leading causes of death by self-poisoning, and this burden is felt disproportionately in low- and middle-income countries.

Therefore, A new pesticide has been introduced to the habitat of this population of beetles. The effect of this environmental change is decreased genetic variation and the correct option is option 1.

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Answer:

there would be more charge in it

Explanation:

Answer:

a) 7.0.

b) Nickel sulfate hepta hydrate.

c) 280.83 g/mol.

d) 44.9%.

Explanation:

a) What is the formula of the hydrate?

The mass of the hydrated sample (NiSO₄.xH₂O) = 5.0 g,

The mass of the anhydrous salt (NiSO₄) = 2.755 g,

The mass of water = 5.0 g - 2.755 g = 2.245 g.

∴ no. of moles of water = mass/molar mass = (2.245 g)/(18.0 g/mol) = 0.1247 mol.

∴ no. of moles of anhydrous salt (NiSO₄) = mass/molar mass = (2.755 g)/(154.75 g/mol) = 0.0178 mol.

∴ water of crystallization in the sample (x) = no. of moles of water/no. of moles of anhydrous salt (NiSO₄) = (0.1247 mol)/(0.0178 mol) = 7.0.

b) What is the full chemical name for the hydrate?

The name of the salt (NiSO₄.7H₂O) is Nickel sulfate hepta hydrate.

c) What is the molar mass of the hydrate?

(NiSO₄.7H₂O)

The molar mass = molar mass of NiSO₄ + 7(molar mass of H₂O) = (154.75 g/mol) + 7(18.0 g/mol) = 280.83 g/mol.

d) What is the mass % of water in the hydrate?

The mass % of water = (mass of water)/(mass of hydrated sample) x 100 = (2.245 g)/(5.0 g) x 100 = 44.9%.

The coefficients to balance the given equation  [tex]Ba + Br_2 \to BaBr_2[/tex] are [tex]1 Ba + 1 Br_2 \to1 BaBr_2[/tex] ,respectively.

Coefficients are used to balance chemical equations, ensuring that the number of atoms of each element is the same on both sides of the equation. Or a coefficient is a numerical value placed in front of a chemical formula or compound to indicate the relative number of molecules or atoms involved in a reaction.

To balance the chemical equation [tex]Ba + Br_2 \to BaBr_2[/tex] , we need to ensure that the number of atoms of each element is the same on both sides of the equation.

Here are the coefficients needed to balance the equation:

[tex]Ba + Br_2 \to BaBr_2[/tex]

[tex]1 Ba + 1 Br_2 \to1 BaBr_2[/tex]

Therefore, the coefficients to balance the given equation are:

[tex]1 Ba + 1 Br_2 \to1 BaBr_2[/tex].

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Answer:

The suns mass affects the planets in the solar system because the grater the mas the stronger the gravitaional pull so the saster the planet orbits the sun.

Explanation:

Suns mass directly affected the position of planets in the solar system.

If the mass of the Sun is increased, the Sun would exert a stronger gravitational force on materials present around it. This change in mass of sun would disturb the orbits of all of the planets, pulling them closer to it.

So we can conclude that suns mass directly affected the position of planets in the solar system.

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Answer:

Sound waves and light waves need to change places.

Explanation:

The electromagnetic spectrum has 7 different types of waves with wave different wave lengths and frequencies. They include radio waves, micro waves, infrared eradication, visible light, ultraviolet, xrays, and gamma rays. They do not require a medium of air or water. Mechanical waves need air and water to spread.

Answer: Sound waves and light waves need to change

Explanation:-

Electromagnetic waves are waves which can travel through the vacuum. electromagnetic waves have electrical and magnetic component associated with them. They all travel with the speed of light.The energy transport through a medium involves the absorption and re emission of the wave energy by the atoms of the material.  Example: Light waves, X rays, Radiation waves

Mechanical waves require a medium to travel so that they can transport their energy from one location to another.  Example: Ocean waves, sound waves , Earthquake waves

Thus light waves are electromagnetic waves and sound waves are mechanical waves and thus should exchange places.

Answer:

2.

Explanation:

there are 2 double bonds in this molecule:

Answer:

250 gm

Explanation:

Latent heat of ice=80 calories /g

ice=20000÷80=250 gm

The specific heat of the material is calculated using the formula for heat transfer Q = mcΔT, rearranged to find the specific heat 'c' = Q / (m * ΔT). In this scenario, given the provided values, the specific heat is approximately 0.81 J/g°C.

In this question, you are asked to find the specific heat of a material. Specific heat refers to the amount of heat required to raise the temperature of 1 gram of the substance by 1 degree Celsius. This is an intensive property of matter and is unique for each substance.

If we use the formula for heat transfer Q = mcΔT, where:

Then, by rearranging the formula, the specific heat 'c' can be calculated using the formula c = Q / (m * ΔT).

In this case, the heat transferred Q is 4786 J, the mass m is 89.0 g, and the change in temperature ΔT is the final temperature minus the initial temperature (89.5°C - 23.0°C = 66.5°C).

Therefore, specific heat 'c' = 4786 J / (89.0 g * 66.5°C) = 0.81 J/g°C. Hence, the specific heat of the material is approximately 0.81 J/g°C.

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Answer:

The temperatures of the objects must be different

Explanation:

if heat is flowing between two objects, then the objects must be at different temperatures.

Answer:

The have to different temperature

Explanation:

Answer:

= 27Ω

Explanation:

The voltage of a device =  Resistance × Current

                                         V=RI

Making R the subject of the formula we have R= V/I  

Thus resistance = Voltage/ Current

V= 81 V

I = 3 A

Using these values in the formula for resistance we can then find the resistance of the device as follows.

R = 81 V/ 3 A

= 27Ω

Answer:

69.8 %.

Explanation:

2Na + Cl2 = 2NaCl

Using Relative Atomic Masses:

2*22.99 g sodium should produce  2*(22.99 + 35.45) =   116.88 g of sodium chloride

So 5.75 g Na should give 116.88 * 5.75 / 2*22.99 g = 14.62 g NaCl

% yield = 10.2 / 14.62 = 69.8%.

2Na + Cl2 = 2NaCl

Using Relative Atomic Masses:

2×22.99 g sodium should produce  2×(22.99 + 35.45) =   116.88 g of sodium chloride

So 5.75 g Na should give 116.88 ×5.75 / 2×22.99 g = 14.62 g NaCl

percentage yield = 10.2 / 14.62 = 69.8%.

Sodium chloride is the chemical name for salt. Sodium is an electrolyte that regulates the amount of water in your body. Sodium also plays a part in nerve impulses and muscle contractions.

Sodium chloride is an essential nutrient and is used in healthcare to help prevent patients from becoming dehydrated. It is used as a food preservative and as a seasoning to enhance flavor.

Sodium chloride is also used in manufacturing to make plastics and other products. It is also used to de-ice roads and sidewalks.

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Answer:

GAS

Explanation:

Answer:

Gas

Explanation:

The gaseous state of matter is highly compressible. According to the kinetic theory of matter, in the gaseous state, gas molecules largely move independent of each other and experience very little intermolecular forces between them.

Gases are abundant in the atmosphere near the earth's surface.

Answer:

Insulin and glucagon are the hormones that cause blood glucose (blood sugar) preserved in a narrow range. The pancreas serves as the central part of this process. Secreted by the pancreas are both insulin and glucagon. Determined by the production of insulin and glucagon, people can find out whether someone may have diabetes,  hypoglycemia, low blood pressure, etc. Insulin or glucose can be prescribed to victims of those listed issues, it is mostly used to balance out the level of glucagon and insulin to try to stop the problem.

Answer:

5.8 %

Explanation:

% by mass = (mass of solute/mass of solution) × 100 %

Data:

    Mass of NaBr =    9.6 g

Mass of solution = 165    g

Calculation:

% by mass = (9.6 g/165 g) × 100 % = 5.8 %

Answer:

The concentration of sodium bromide solution as a percent by mass is 5.82%.

Explanation:

Percent by Mass (w/w %) :

The percentage mass or fraction of mass of the of solute present in total mass of the solution.

[tex]w/w\%=\frac{\text{Mass of solute}}{\text{Mass of solution}}\times 100[/tex]

Mass of solute that is sodium bromide = 9.6 g

Mass of the solution prepared = 165 g

The concentration of solution as a percent by mass:

[tex]\frac{9.6 g}{165 g}\times 100=5.82\%[/tex]

Answer:

Secondary .

Explanation:

Primary amine contains only one alkyl group.

Secondary amine contains two alkyl groups.

Tertiary amine contains three alkyl groups.

So, it is secondary amine.

Answer:

Secondary

Explanation:

Because of this amount of hydrogens being substituted, we can classify the amines in primary (R-NH2), secondary (R1R2NH) and tertiary (R1R2R3N) amines. In the primary amines, only one of the hydrogens is replaced by an organic radical, for example, in the following CH3 - NH2 molecule, in the secondary we have the substitution of two hydrogen atoms, as in the case of CH3 - NH - CH3 and in the tertiary all are replaced.

In the molecule (C6H14) 2NH, the bold part shows the substitution of two hydrogen, so we can classify the molecule as a secondary amine.

Answer:

since there is a decimal point at the end, they are all significant figures so the answer is 5

There are 5 significant figures in 13,000. cm(centimeters).

Significant figures are often the sequence of data that add to the correctness of a value, frequently a measurement.

The length of an entity is usually measured in centimeters, which are metric units of measurement.

There are 5 significant figures in 13,000. cm(centimeters).

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Answer:

The options are missing, so I will answer the question in a general manner.

This group of elements includes the alkali metals, alkaline earth metals, transition metals, basic metals, lanthanides and actinides. Depending on conditions, elements belonging to the metalloid group may behave like metals.  So, if you want to know if an element is a metal, just found it in the periodic table.

When bonding with nonmetals in ionic compounds, they are converted into cations. When bonding together they make metallic compounds. When multiple metals bound they form alloys (these can include nonmetals too).

Answer:

0.009 mol.

Explanation:

M = (no. of moles of acetic acid)/(Volume of the solution (L)).

M = 0.9 M, Volume of the solution = 10.0 mL = 0.01 L.

∴ no. of moles of acetic acid = (M)(Volume of the solution (L)) = (0.9 M)(0.01 L) = 0.009 mol.

Answer:

The number of acetic acid moles is 0.0090 in 10 ml of the solution​.

Explanation:

[tex]Molarity=\frac{Moles}{Volume (L)}[/tex]

Let the moles acetic acid in vinegar be n.

Molarity of the vinegar solution = 0.90 M

Volume of the vinegar solution = 10 mL = 0.010 L

1 mL = 0.001 L

[tex]0.90M=\frac{n}{0.010 L}[/tex]

[tex]n=0.90 M\times 0.010 L=0.0090 mol[/tex]

The number of acetic acid moles is 0.0090 in 10 ml of the solution​.

Answer:

Lithium batteries are well-known for powering our phones and the latest lightweight laptop computers.

Lithium batteries are popular because they are lightweight, provide a stable voltage, are long-lasting, and are capable of delivering a high amount of current, making them suitable for a variety of applications from consumer electronics to electric vehicles and medical devices.

Lithium batteries are among the most popular types of rechargeable batteries used today. They are commonly found in a wide range of portable electronic devices. Here are some key details about their use and why they are so popular:

Answer:

second one

Explanation:

Answer:

Solution G has 100 times more hydroxide ions than Solution F.

Explanation:

∵ pH + pOH = 14.

∴ pOH = 14 - pH.

pOH = 14 - pH = 14 - 11 = 3.

∵ pOH = -log[OH⁻] = 3.

∴ [OH⁻] = 0.001 M.

pOH = 14 - pH = 14 - 13 = 1.

∵ pOH = -log[OH⁻] = 1.

∴ [OH⁻] = 0.1 M.

∴ [OH⁻] of solution G / [OH⁻] of solution F = (0.1)/(0.001) = 100.

So, Solution G has 100 times more hydroxide ions than Solution F.

Answer:

The approximate molar mass of NaOH is 40 g/mol. You have 4 g NaOH.

No. of moles of NaOH is given by

n=(Given mass)/(Molar mass)

= 4/40 = 0.1 mol

1 mol has 6.022 × 10^23 molecules.

Thus, 0.1 mol has 6.022 × 10^23 × 0.1 molecules i.e. 6.022 × 10^22 molecules.

Explanation:

Final answer:

There are 12 atoms in 4 molecules of NaOH.

Explanation:

To determine the number of atoms in 4 molecules of NaOH, we must first understand the chemical formula of NaOH. NaOH consists of one sodium atom (Na), one oxygen atom (O), and one hydrogen atom (H). To calculate the total number of atoms, we multiply the number of molecules (4) by the number of atoms in each molecule (3). Therefore, there are 12 atoms in 4 molecules of NaOH.

Answer:

2. B.

Explanation:

Answer:

2. B on EDG 2020

Explanation:

Got it Right :)

Answer:

a.) Independent Variable: # of candy bars promised to each group

[ The Independent Varaiable is what you change in the experiment]

b.) Dependent Variable: Quiz Scores

[ The Dependent Variable is what you're testing in the experiment; what the experiment should affect]

c.) Constant(s): Same Quiz, same number of gender kids in each group, same age kids in each group, same ability, and same background. [and same time, I'm assuming.]

[Constants are what you keep the same in the experiment; what you're not changing.]

d.) Testable Question: Will promising kids candy make them do better on tests and quizzes? [or something along this lines of this]

[The Testable Question is what you're trying to find out in the experiment]

e.) Hypothesis: The more candy the students were promised, the better results Mrs. DeFord would get from them.

[The Hypothesis is what the person performing the experiment expects will happen; an educated guess]

f. Formal Conclusion: Data shows that kids who were promised more candy had a better average than kids who were promised less candy/none. Mrs. DeFord's hypothesis was correct, since she assumed the more candy the students were promised, the better they would do on the quiz.

[The Formal Conclusion is what you have learned from the experiment, and wether or not the hypothesis was correct or not.]

I hope this helps! :)

Answer:

B. Changes in energy in systems.

Explanation:

Thermodynamics is a branch of physics which deals with heat and temperature in relation to energy work radiation and characteristics of matter.

This field studies the causes of energy changes and the effects of energy changes to chemical and  physical systems.

Thermodynamics relates B) changes in energy in systems.

Thermodynamics is the part of material science that manages warmth and temperature, and their connection to energy, work, radiation, and properties of issue. The conduct of these amounts is administered by the four laws of thermodynamics which pass on a quantitative depiction utilizing quantifiable naturally visible physical amounts, yet might be clarified as far as tiny constituents by factual mechanics.

Thermodynamics applies to a wide assortment of subjects in science and building, particularly physical science, concoction designing and mechanical designing, yet in addition in fields as intricate as meteorology.