What are the standard conditions under which reduction potentials are measured?
O
O
O
O
1°C and 1 M reactants
25°C and 1 M reactants
25°C and 2.5 M reactants
1°C and 25 M reactants

8.3mL

Explanation:

Given parameters:

Mass of acetone = 6.54g

Density of acetone = 0.7857 g/mL

Unknown:

Volume of acetone = ?

Solution:

Density is defined as the mass per unit volume of a substance. It is expressed mathematically as shown below:

  Density = [tex]\frac{Mass}{Volume}[/tex]

Since the unknown is volume, we make it the subject of the formula

Volume =  [tex]\frac{mass}{density}[/tex]

Input the values;

  Volume = [tex]\frac{6.54}{0.7857}[/tex] = 8.3mL

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Answer:

2.26 g

Explanation:

Data given:

mass of Sulfuric acid = 3.24 g

mass of Aluminum hydroxide = 0.945 g

Theoretical yield of Aluminum sulfate = ?

Solution:

First we look for the balance reaction

Reaction

       3H₂SO₄ + 2Al(OH)₃ ----------> Al₂(SO₄)₃ + 6H₂O

Now we look for the limiting reactant on which the amount of aluminum sulfate depends

So,

         3H₂SO₄ + 2Al(OH)₃ ----------> Al₂(SO₄)₃ + 6H₂O

          3 mol         2 mol

from above reaction it is clear that 3 mole of H₂SO₄ combine with 2 mole of Al(OH)₃

Convert moles to mass

• molar mass of Al(OH)₃

molar mass of Al(OH)₃ = 27 + 3(16 + 1)

molar mass of Al(OH)₃ = 27 + 45

molar mass of Al(OH)₃ =72 g/mol

• molar mass of H₂SO₄

molar mass of H₂SO₄ = 2(1) + 32 + 4(16)

molar mass of H₂SO₄ = 2 + 32 + 64

molar mass of H₂SO₄ = 98 g/mol

So,

        3H₂SO₄         +         2Al(OH)₃   ----------> Al₂(SO₄)₃ + 6H₂O

    3 mol (98 g/mol)     2 mol (72 g/mol)

         294 g                        144 g

So its clear from the reaction that 294 g of H₂SO₄ react with 144 g of Al(OH)₃

now if we look at the given amounts the amount Al(OH)₃ is less then the amount of H₂SO₄

So, for Al(OH)₃ if we calculate the needed amount of H₂SO₄

So apply unity formula

          294 g H₂SO₄ ≅ 144 g of Al(OH)₃

          X g H₂SO₄ ≅ 0.945 of Al(OH)₃

Do cross multiplication

         X g H₂SO₄ = 294 g x 0.945 g / 144 g

         X g of H₂SO₄ ≅ 1.93 g

So, 1.93 g of H₂SO₄ will react out of 3.24 grams, the remaining amount of it will be in excess.

So,

Al(OH)₃ will be consumed completely an it will be limiting reactant.

-----------

Now to Calculate for the theoretical yield

First we look for the balance reaction

Reaction

          3H₂SO₄ + 2Al(OH)₃ ----------> Al₂(SO₄)₃ + 6H₂O

Now we look for the mole mole ration of Al(OH)₃ to the amount of aluminum sulfate produced

So,

              3H₂SO₄ + 2Al(OH)₃ ----------> Al₂(SO₄)₃ + 6H₂O

                                 2 mol                     1 mole

from above reaction it is clear that 1 mole of Al₂(SO₄)₃ produce by 2 mole of Al(OH)₃

As we know that

2 mole of Al(OH)₃ = 144 g

So,

if 144 g of Al(OH)₃ gives 1 mole Al₂(SO₄)₃ then how many moles of Al₂(SO₄)₃ will be produces by 0.945 g Al(OH)₃

So apply unity formula

               144 g of Al(OH)₃ ≅ 1 mole of Al₂(SO₄)₃

               0.945 g of Al(OH)₃ ≅ X mole of Al₂(SO₄)₃

Do cross multiplication

             X mole of Al₂(SO₄)₃ = 0.945 g x 1 mole / 144 g

             X mole of Al₂(SO₄)₃ = 0.0066 moles

So,

0.945 g of Al(OH)₃ produce 0.0066 mole of Al₂(SO₄)₃

Now convert moles of Al₂(SO₄)₃ to mass

Formula used:

           mass in grams = no. of moles x molar mass . . . . . . (1)

• molar mass of Al₂(SO₄)₃

molar mass of Al₂(SO₄)₃ = 2(27) + 3(32 +4(16))

molar mass of Al₂(SO₄)₃ = 54 + 3 (32 +64)

molar mass of Al₂(SO₄)₃ = 54 + 3 (96)

molar mass of Al₂(SO₄)₃ = 54 + 288

molar mass of Al₂(SO₄)₃ =342 g/mol

Put values in equation 1

         mass in grams = 0.0066 g x 342 g/mol

         mass in grams = 2.26 g

So the theoretical yield of Aluminum sulfate (Al₂(SO₄)₃ ) is 2.26 g

Answer:

Mg + AgNO₃ → Ag + Mg(NO₃)₂

Explanation:

A single replacement reaction is one in which an element gets replaced by another in a compound.

In the reaction

Mg + AgC→ Ag + Mg(NO₃)₂

Ag in AgNO₃ is replaced by Mg to give Mg(NO₃)₂.Only one element is getting replaced and hence it is a single replacement reaction.

Answer:

T(final) = 40.4 °C

Explanation:

Given data:

Density of water = 1.00 g/mL

Volume of water at 25°C = 390.0 mL

Volume of water at 95°C = 110.0 mL

Final temperature of mixture = ?

Solution:

Heat absorbed by warm water = heat lost by hot water

q lost = -q lost ....... (1)

Formula:

q = m.c.ΔT

ΔT(warm) =  T(final) - 25°C

ΔT(hot) =  T(final) - 95°C

Mass of water:

d = m/v

1 g/mL = m/ 390 mL

390 g = m

For hot water:

d = m/v

1 g/mL = m/ 110.0 mL

110.0 g = m

Now we will put the values in equation 1.

390 g. c.   (T(final) - 25°C) =  - 110.0 g .c. (T(final) - 95°C)

390 T(final) - 9750 °C = -110 T(final) + 10450 °C

390 T(final) +110 T(final) = 10450 °C +9750 °C

500 T(final) = 20200

T(final) = 20200/500

T(final) = 40.4 °C

Answer:

The answer is: "the insect touching the trigger hairs"

Explanation:

I took the k-12 test and got a 100%!

Explanation of how Wyatt solved the equation x + 1/2(6x - 4) = 6 and verified the solutions.

Wyatt solved the equation x + 1/2(6x - 4) = 6 by simplifying and solving for x, resulting in x = 3, x = -7. To verify the solutions, each value was substituted back into the original equation to ensure they satisfy the equation, leading to an identity.

Explanation:

to calculate theoratical yield...first we must calculate how much Sucrose moles we have..in order to to do so...we must calculate molar mass of sucrose.

molar mass of sucrose is 342.3 g/mol.

now we can calculate how many sucrose moles we have by dividing the mass with molar mass of sucrose

735g/(342.3g/mol)=2.147mol

theoratically...according to stoichiometry..every 1 mole of sucrose yields 4 moles of ethanol...so...

2.147mole yield 2.147*4mol=8.588mol

now we must calculate weight of that much ethanol..molar mass of ethanol is 46.07 g/mol...

so we can multiple moles by molar mass to obtain the weight 8.588mol*46.07g/mol=395.649g

but we only obtained 310.5g...so percentage we have is

[tex] \frac{310.5}{395.649} \times 100[/tex]

78.47%

if there is trouble with molar mases I used....use what you calculated...

If my explanation is good enough...please mark it as brainliest.thanks

Explanation:

Number of molecules can be calculated as ratio of given mass to molecular mass x Avogadro's number .

That is ;

Number of molecules = Given mass /molecular mass x Avogadro's number .

Number of molecules = given mass / molecular mass x 6.023 x 10²³

In the above asked question :

The moles of CH₂O = 0.0124 moles

The molecular mass = CH₂O

(atomic mass of C + +atomic mass of hydrogen + atomic mass of O

that is :

12 +1x 2+16=30

Now, substituting in formula, we get

number of molecules = 0.0124mole x Av. number '

Number of molecules = 0.0124 x 6.022 x 10²³

= 0.0746 x 10²³ molecules

An aqueous solution of NaHSO4 is acidic due to the bisulfate anion's ability to release an extra hydrogen ion into the solution, resulting in increased acidity.

An aqueous solution of NaHSO4 (sodium hydrogen sulfate) is generally acidic. This is because the NaHSO4 is a salt formed from a strong acid (H2SO4 - sulfuric acid) and a weak base. The bisulfate anion (HSO4-) can release an extra hydrogen ion (H+) into the solution, increasing the acidity. Considering the acidity of H2SO4 and the neutral nature of NaOH, NaHSO4 in water partially dissociates into Na+ and HSO4-. The Na+ does not affect the pH, but HSO4- can donate a proton (H+) to water to form H3O+ (hydronium ions) and SO4^2- (sulfate ions), making the solution acidic.

Answer:

1, convergent boundary

2,divergent boundary

3, convergent boundary

4, convergent boundary

5,transform boundary

Explanation:

Convergent boundaries where two plates are colliding with each other.

Convergent boundaries where two plates are colliding. At subduction zones, the denser plate is subducted underneath the less dense plate. The plate being forced under is melted.

When two plates are moving away from each other, it is known as divergent plate boundary. Most divergent plate boundaries are formed underwater and formed oceanic spreading ridges.

Mountains are formed at convergent plate boundaries. At convergent boundary at which two plates are moving towards one another.

Destructive or convergent plate boundaries at which the tectonic plates are moving towards each other. Volcanoes form at convergent plate boundaries.

When plates move apart from each other at divergent boundaries, magma from the mantle reaches to the surface of Earth and new crust forms. When plates move toward each other at convergent boundaries, volcanoes, mountains, and trenches formed.

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Answer:

A. Heat is Released.

(Both physical and chemical changes can tamper with temperature, but to identify a CHEMICAL change - you'll notice a color change, heat being released, odor and/or bubbling.)

The only thing listed applicable is Heat is Released.

Explanation:

Answer:

B. A gas is formed  

Ik I'm late sorry

Explanation:

I did the test :P

Answer:

They help prevent flooding.

They filter excess nutrients, sediment, and even pollution from the water that flows through them.

They are a rich habitat for many plant and animal species.

Explanation:

Wetlands are a unique ecosystem that serves as a rich habitat for many plant and animal species. It is an area of soil that is covered by water. These can be found anywhere in the world. Many of the animals such as mammals, fish and birds need wetlands for their growth. It also provides an ecosystem capable for growing plants, crops and the like. Thus, they are a rich habitat for many plants and animals.

Wetlands also filter excess nutrients, sediment and even pollution from the water that flows through them. This allows the purification of surface water. The nutrients are taken up by plants and other microorganisms while the sediments settle at the bottom.

Wetlands help prevent flooding by absorbing much of the water during storms. Their function is similar to that of a sponge whereby they can hold as much water as possible. This is the reason why the government is aiming to preserve such distinct ecosystems.

Answer: 2HCl + CaCO3 => CaCl2+ CO2 + H2O

Explanation:

The equation is now balanced.

2 atoms H in both reactant and product side.

Cl have 2 atoms on both sides.

Ca have 1 atom in both sides.

C have 1 atom on both sides and

O have 3 atoms on both reactant and product side

Answer:1. Or A

Explanation: I know this is right

Answer: V2O5

Explanation:

Answer:

speeding up the rate of breathing

Explanation:

Answer:

speeding up the rate of breathing

Explanation:

Answer: When carbon dioxide breaks down into carbon and oxygen, the number of atoms always remains the same.

Explanation: I know this is late but for other people that are trying to find the answer their it is, I hope this helps

The observation which demonstrates the mass conservation is option C. When water breaks down into hydrogen and oxygen, the number of atoms always remains the same.

Conservation of mass is alike the conservation of energy. That is mass can neither be created nor be destroyed. Therefore, the total mass of a system remains constant always.

In a chemical reaction, the total mass in the reactant side is always equal to the total mass in the product side. Hence, no new atoms are created or already existing atoms do not destroy.

In the decomposition of water, the number of atoms in the product side is equal to that in the reactant side. Hence, the total mass of water broken is equal to the total mass of hydrogen and oxygen.

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Your question is incomplete. But your complete question is as follows;

According to the law of conservation of mass, mass is neither created nor destroyed in any ordinary chemical reaction. Which of the following is a demonstration of this law?

When hydrogen and oxygen combine to make water, oxygen atoms are converted to hydrogen atoms.

When sodium and chlorine combine to make salt, some of the sodium is always lost.

When water breaks down into hydrogen and oxygen, the number of atoms always remains the same.

When iron reacts with oxygen to form rust, the mass of the iron atoms increases.

Answer:

A. Loss of agricultural land

Explanation:

Urban development pretty much encourages the other three answers' development

Answer: it would A the loss of agriculture land

Answer:

Acceleration is :

a = 2.89 m/s2

Explanation:

Acceleration : It is the change in the velocity of the object per unit time.

The object starts from the rest , so the initial velocity of the object is zero.

Initial velocity , u = 0

Final velocity = 100 km/h

Change the velocity to m/s because[ time unit is in second(9.60 s)]

1 km = 1000 m

1 hour = 60 x 60 sec = 3600 sec

[tex]1km/h=\frac{1000}{3600}m/s[/tex]

[tex]1km/hr=\frac{5}{18}[/tex]

[tex]100km/hr=\frac{5}{18}\times 100[/tex]

[tex]v=\frac{5}{18}\times 100[/tex]

v = 27.78 m/s

u = 0 m/s

time = 9.60 s

The acceleration"a" is calculated using :

[tex]a=\frac{v-u}{t}[/tex]

[tex]a=\frac{27.78-0}{9.6}[/tex]

[tex]a=\frac{27.78}{9.6}[/tex]

[tex]a=2.89m/s^{2}[/tex]

The formula for di-iodine pentasulfide would be I2S5.

Two (di) molecules of iodine, paired with five (penta) molecules of sulfur.

Answer:

Density = 6.17 * 10^14 g/cm³

Explanation:

Given Parameters

Mass of the proton = 1.0073 amu

Diameter of the proton = 1.75 * 10^-15 m

Required:

Calculate the density of the proton.

Density is calculated using the following formula;

Density = mass / volume

Where mass should be in grams and volume should be in cm ³

Calculating mass of a proton in grams.

Mass = 1.0073 amu

First, we convert to kilogram

Mass = 1.0073 * 1.66054 * 10^-27 kg

Then we convert to grams

Mass = 1.0073 * 1.66054 * 10^-27 * 10³ g

Mass = 1.0073 * 1.66054 * 10^-24 g

Mass = 1.673 * 10^-24 g

Then we calculate the volume of the proton

Volume = 4/3πR³ where R = Radius

And R = ½d.

First calculate the radius in centimetres

R = ½ * 1.73 * 10^-15 m

R = 0.865 * 10^-15

Convert to centimetres

R = 0.865 * 10^-15 * 10² m

R = 0.865 * 10^-13 cm

So, Volume = 4/3 * 3.14 * (0.865 * 10^-13)³

Volume = 4.187 * (0.865 * 10^-13)³

V = 4.187 * 0.865³ * 10^-39

V = 2.71 * 10^-39cm³

So, density = Mass / Volume becomes

Density = 1.673 * 10^-24 g / 2.71 * 10^-39cm³

Density = 0.617 * 10^15 g/cm³

Density = 6.17 * 10^14 g/cm³

The current ratio of birds to snakes in the local desert ecosystem is 1:5, after the bird population decreased by half in the last 10 years. Hence, option C 1:5.

The original ratio of birds to snakes was 2:5. Since the bird population has halved while the snake population has remained the same, the current ratio of birds to snakes in the ecosystem is 1:5.

Answer:D. The objects potential energy will be greater.

Explanation:

Potential energy is expressed in

PE = mgh

Where PE is the product of mass of the object, g which is acceleration to gravity and height.

PE and height is directly proportional which means that any changes in height will change the value of the PE. Increase in height means increase in PE.

Answer:

D.The object's potential energy will be greater.

Explanation:

the higher the object is the more potential energy it will have.

Answer:

14 grammes

Explanation:

if atomic weight of Nitrogen = 14 g/mole

mole =mass(g) / atomic weight(g/mole)

mass = 1moles x 14(g/mole)

mass = 14 grammes of Nitrogen

Answer:

28.0.

Explanation:

Hello,

In this case, it seen that 1 only nitrogen weights 14.0 g/mol, in such a way, for diatomic nitrogen which is the most stable form of pure nitrogen has two nitrogens thereby the mass of one mole of nitrogen gas is 28.0g/mol because the aforementioned 14.0g/mol is multiplied by 2 accounting the two nitrogens.

Best regards.

Unsaturated fats are comprised of lipids with one or more double bonds between carbon atoms, resulting in relatively few hydrogen atoms than saturated fats. Option C is correct.

Unsaturated fats are comprised of lipids that contain relatively few hydrogen atoms. This is because they include one or more carbon-carbon double bonds in their fatty acid chains.

In contrast to saturated fats, which have no double bonds and contain the maximum number of hydrogen atoms, unsaturated fatty acids are not saturated with hydrogen due to these double bonds. Examples of unsaturated fats include monounsaturated fats with one double bond, and polyunsaturated fats with multiple double bonds.

Hence, C. is the correct option.

The complete question is:

Unsaturated fats are comprised of lipids that contain ____.

A) nitrogen

B) many hydrogen atoms

C) relatively few hydrogen atoms

D) no double bonds

Answer:

Four

Explanation:

The electron dot diagram of elements or ions depict only the valence electrons. Carbon has atomic number of 6. The first shell has 2 electrons and gets filled. The second shell is filled by the remaining four electrons.The 4 electrons of the valence shell is shown in the electron dot diagram.

Answer:

carbon dioxide

Explanation:

Final answer:

Mars's atmosphere is mainly made up of carbon dioxide (95%) with small amounts of nitrogen (3%) and argon (2%). Its thin atmosphere resembles the conditions found high in Earth's atmosphere and is only 0.007 bar in surface pressure, which contributes to the planet's dry and dusty landscape.

Explanation:

The thin atmosphere of Mars is primarily composed of carbon dioxide (CO2), which makes up about 95% of its atmospheric content. In addition to CO2, the martian atmosphere contains roughly 3% nitrogen and 2% argon. Mars's air is so rarefied that it resembles the conditions found at an altitude of around 30 kilometers above Earth's surface. The planet's low atmospheric pressure prevents the existence of liquid water on its surface, as well as making winds less forceful despite their high speeds. Nevertheless, these winds are able to carry fine dust particles across the planet, creating the characteristic red hue that covers Mars's landscape and occasionally causing massive dust storms.

While Mars currently has a very thin atmosphere, it likely had a much thicker atmosphere in the past which could have supported liquid water and potentially conditions suitable for life. Any existing life on Mars today might be found in protected environments below the surface, where conditions could still support it.

To react with 14.0 grams of octane, 48.9 grams of oxygen are required in the combustion of octane in gasoline.

To balance the chemical equation C8H18(g) + O2(g) → CO2(g) + H2O(g), you need to ensure that the number of atoms of each element is equal on both sides of the equation. The balanced equation is:

C8H18(g) + 12.5O2(g) → 8CO2(g) + 9H2O(g)

To determine the mass of oxygen required to react with 14.0 grams of octane, you need to use stoichiometry. From the balanced equation, you can see that the mole ratio between octane and oxygen is 1:12.5. First, convert the mass of octane to moles by dividing it by its molar mass. Then, use the mole ratio to find the moles of oxygen. Finally, multiply the moles of oxygen by its molar mass to find the mass of oxygen:

14.0g C8H18 ÷ 114.22g/mol C8H18 = 0.1223 mol C8H18

0.1223 mol C8H18 × 12.5 mol O2 ÷ 1 mol C8H18 = 1.5288 mol O2

1.5288 mol O2 × 31.998 g/mol O2 = 48.9 grams of oxygen

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To measure the amount of something we can:

Why?

Those are the three ways of measuring the amount of substance. Mass is measured in grams (g) and can be measured using a balance, the volume is measured in liters (L) and  can be measured using a graduated cylinder. Moles are often determined indirectly through titration or weighing.

To convert one quantity into another we often use conversion factors. To interconvert between mass and volume we use the density.

Density is defined as the amount of mass in a given volume of the substance. If we had a sample of 1000 mL of ethanol, and we wanted to find its mass, we'd have to apply the following conversion factor, knowing that the density of ethanol is 0.789 g/mL:

[tex]1000mLEtOH*\frac{0.789g}{1mL}=789 g[/tex]

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Physical quantities can be measured in various ways, such as using a meter stick for distance, a scale for weight, or a graduated cylinder for volume. Converting these quantities involves the process of Dimensional Analysis or Unit Conversion, which uses conversion factors to change from one type of unit to another. For example, kilometers can be converted to miles, and pounds can be converted to kilograms using known conversion ratios.

There are numerous methods for measuring the amounts of different quantities. A few examples include measuring distance with a meter stick, weight using a scale, and volume using a graduated cylinder. Regarding conversions, quantities expressed in one unit can often be converted into a different unit. For example, we can measure the distance in kilometers and then convert it into miles using the conversion factor 0.621371miles/kilometer.

A common method used to convert between units is known as Dimensional Analysis or Unit Conversion. This involves using conversion ratios (also known as conversion factors) which represent relationships between different units of measure. These ratios are used to cancel out unwanted units and introduce desired ones. Take the example of converting kilometers to miles. We have the conversion ratio of 1 kilometer being approximately equal to 0.621371 miles, which becomes our conversion factor. If we have a given distance of 50 kilometers that we want to express in miles, we'd calculate 50km * 0.621371 miles/kilometer = ~31.07 miles.

Another example involves weight measurements. Often, these will be done in pounds but can be converted to kilograms using the conversion factor 1 pound is approximately equivalent to 0.453592 kilograms. Therefore, the weight of an object weighing 50 pounds would be converted as follows: 50 lbs * 0.453592 kg/pound = ~22.68 kilograms.

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Bacterial contamination can occur within seconds to minutes, depending on various factors such as the type of bacteria and the environment. The most accurate option among the given choices is 5-10 minutes.

Bacterial contamination can occur very quickly, often within a matter of seconds or minutes. The actual speed of contamination depends on various factors such as the type of bacteria, the environment, and the presence of favorable conditions for bacterial growth. For example, if a person touches a contaminated surface and then touches their mouth or eyes, the bacteria can be introduced to their body almost immediately. Similarly, food left at room temperature for a few minutes can provide enough time for bacteria to multiply and contaminate the food.

Therefore, among the given options, the most accurate answer would be 5-10 minutes as a broad estimate of how quickly bacterial contamination can occur in certain situations.

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The correct answer is c. 10-20 seconds. bacterial contamination can occur in 10-20 seconds.

Bacterial contamination can occur very quickly, especially when proper food handling and hygiene practices are not followed. Cross-contamination between raw and cooked foods, or foods that will not be cooked, such as salads, can happen in a matter of seconds if they come into contact with contaminated surfaces, utensils, or hands. The time frame of 10-20 seconds is consistent with the rapid nature of bacterial transfer.  

To prevent such contamination, it is crucial to maintain cleanliness in food preparation areas, wash hands thoroughly before handling food, and keep raw and cooked foods separate. The other options, 5-10 seconds, 5-10 minutes, and 10-20 minutes, do not accurately represent the speed at which bacterial contamination can occur, with the fastest being within seconds under the right conditions.

Answer:i believe its water, vinegar, and iodine solution... sorry if wrong

Explanation:

The cornstarch and water mixture acts like a solid sometimes and a liquid at other times. This concoction is an example of a suspension (a mixture of two substances), one of which is finely divided and dispersed in the other. ... When you slap the cornstarch quicksand, you force the long starch molecules closer together.