Balancing Chemical Equation
Na+Br2=NaBr

Answer:

C C2H5OH(l) + 3O2(g) → 2CO2 + 3H2O

Explanation:

La ley de conservación de la materia implica que en una reacción química los átomos en los reactivos son iguales a la cantidad de átomos en los productos:

A C2H5OH(l) + O2(g) → CO2 + H2O

En los reactivos hay dos átomos de carbono pero en los productos solo 1. De esta manera, no cumple la ley de conservación.

B C2H5OH(l) + O2(g) → 2CO2 + H2O

En los reactivos hay 6 átomos de hidrógeno pero en los productos solo 2. No cumple la ley de conservación.

C C2H5OH(l) + 3O2(g) → 2CO2 + 3H2O

En los reactivos y productos hay: 2 átomos de carbono, 6 átomos de hidrógeno y 7 átomos de oxígeno. Cumple la ley de conservación.

D C2H5OH(l) + O2(g) → 2CO2 + 3H2O

En los reactivos hay 3 átomos de oxígeno y en los productos 7. No cumple la ley de conservación.

E 2C2H5OH(l) + 3O2(g) → 2CO2 + 3H2O

En los reactivos hay 4 átomos de carbono y en los productos solo dos. No cumple la ley de conservación.

If the pressure of the each gas is increased at a constant temperature until condensation occurs, Then a) octane will condense at the lowest pressure.

Condensation is the process by which water vapor in the air is converted to liquid water. It is the opposite of evaporation. Condensation is essential for the water cycle as it causes the formation of clouds. Condensation is the process by which the physical state of matter changes from the gas phase to the liquid phase. For example, condensation occurs when water vapor (a gas) in the air contacts a cooler surface and turns into liquid water. Octane is a gasoline additive that modern engines need to function properly. Sources of octane have taken many forms over the years. Ocatne will condense at the lowest pressure.

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In a Fischer-Speier esterification reaction, the rate of reaction can be measured using various methods, including instantaneous titration. Instantaneous titration involves monitoring the change in acidity or basicity of the reaction mixture over time.

To measure the rate of reaction using instantaneous titration, a sample of the reaction mixture is withdrawn at different time intervals and titrated with a suitable titrant. The titrant is chosen based on its ability to react specifically with one of the reactants or products involved in the reaction. In the case of Fischer-Speier esterification, the titrant can be a standardized solution of a strong base, such as sodium hydroxide (NaOH), that reacts with the unreacted acid (carboxylic acid).

During the titration, the volume of titrant required to neutralize the remaining acid is recorded. This information can be used to determine the concentration of the remaining acid at different time points. By plotting the concentration of the acid versus time, a graph can be generated. The rate of reaction can be determined from the slope of the resulting curve.

The rate of reaction can be calculated by dividing the change in concentration of the acid by the corresponding change in time. This provides the instantaneous rate of reaction at a specific time point. By comparing the rates at different time intervals, the overall rate of the Fischer-Speier esterification reaction can be determined.

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If the threshold energy of the reaction 2016O(n, γ) 170 is 15.6 MeV, then the atomic mass of 170Ol can be calculated.

Given:Atomic mass of Ol (15.996415 amu)Atomic mass of neutron (1.008665 amu)M (Ol) = 15.996415 amuM (neutron) = 1.008665 amu Threshold energy of the reaction, E = 15.6 MeV The threshold energy (E) is the minimum amount of energy that an incoming neutron must have to trigger the nuclear reaction or the amount of energy that is needed to supply for the reaction to proceed.

The atomic mass of 170Ol can be calculated as follows:E = [M (n) + M (2016O) - M (170O)] x c²Where c = speed of light, M (n) = mass of neutron, M (2016O) = mass of oxygen-16M (170O) = mass of the oxygen-17, the product of the reaction.Rearranging the above equation:  M (170O) = [M (n) + M (2016O) - E/c²]Thus, M (170O) = [1.008665 + 15.994915 - (15.6 x 10⁶ eV/ (3.0 x 10⁸ m/s)²)] amuM (170O) = 16.98803 amuTherefore, the atomic mass of 170Ol is 16.98803 amu.

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Answer:

285g of fluorine

Explanation:

To solve this problem we need to find the mass of Freon in grams. Then, with its molar mass we can find moles of freon and, as 1 mole of Freon, CCl₂F₂, contains 2 moles of fluorine, we can find moles of fluorine and its mass:

Mass Freon:

2.00lbs * (454g / 1lb) = 908g of Freon

Moles freon -Molar mass: 120.91g/mol- and moles of fluorine:

908g of Freon * (1mol / 120.91g) =

7.5 moles of freon * (2moles Fluorine / mole Freon): 15 moles of fluorine

Mass fluorine -Atomic mass: 19g/mol-:

15 moles F * (19g / mol) =

Answer:

insoluble substances

Explanation:

Answer:

make reclamation compulsory after bauxite has been removed

Explanation:

Available options:

choose other infertile and uninhabited locations for bauxite mining

allow agriculture and mining to take place simultaneously in the location

ask farmers in the location to help in mining bauxite

make reclamation compulsory after bauxite has been removed

The correct option and the best plan to solve the problem of permanent dislocation of farmers would be to make reclamation compulsory after the bauxite has been removed.

Reclamation would involve restoring the agricultural land back to its original status prior to the commencement of bauxite mining. By doing this, the farmers can return to their farmland after being temporarily displaced due to the mining activities.

answer is b

please mark brainliest

Carbohydrates have been rightly accused of being the fattening ingredient of foods therefore, we need to consume fewer starchy foods.According to the statement, it is true that carbohydrates have been rightly accused of being the fattening ingredient of foods. It's also true that to keep our weight under control, we must consume fewer starchy foods. Carbohydrates are a type of nutrient that provides energy to our bodies. They are necessary for the proper functioning of the brain, kidneys, heart, and muscles. However, some carbohydrate-rich foods, such as sugar, sweeteners, and starchy foods, such as bread, rice, and potatoes, can cause weight gain when consumed in excess. Starchy foods, in particular, can raise blood sugar levels and trigger the release of insulin, a hormone that promotes fat storage. That is why it is recommended that we consume fewer starchy foods to maintain a healthy weight. Instead, we should focus on consuming more protein and fiber-rich foods, such as lean meats, fish, vegetables, and fruits, which provide essential nutrients and help keep us full longer.

Carbohydrates are polyhydroxyaldehyde or polyhydroxyketone compounds and their derivatives in the form of simple single units or complex units. In plants, glucose is synthesized from carbon dioxide (CO2) and water (H2O) through photosynthesis and stored in the form of starch or cellulose. What are carbohydrates and what are their functions?Glucose or sugar processed from carbohydrates serves as fuel to be used by the body. The main benefit of carbohydrates is as a source of energy for the body in carrying out various functions, as well as for carrying out various activities every day.

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Answer: The amount of heat energy required to melt 649.2 g of HBr is 12.99 kJ, given that the molar heat of fusion of HBr is 2.41 kJ/mol.

Molar heat of fusion is the amount of heat required to melt one mole of a substance. The molar heat of fusion for HBr is 2.41 kJ/mol.

To find the amount of heat energy required to melt 649.2 g of HBr, the following steps should be followed:

Step 1: Determine the number of moles of HBr in 649.2 g of HBr:mass of HBr = 649.2 gMolar mass of HBr = 80.91 g/molNumber of moles of HBr = mass/molar mass= 649.2 g/80.91 g/mol= 8.01 mol

Step 2: Calculate the amount of heat required to melt 1 mol of HBr:Given molar heat of fusion of HBr is 2.41 kJ/molHeat required to melt 1 mol of HBr = 2.41 kJ/mol

Step 3: Calculate the amount of heat required to melt 8.01 mol of HBr:Heat required to melt 8.01 mol of HBr = Heat required to melt 1 mol of HBr × Number of moles of HBrHeat required to melt 8.01 mol of HBr = 2.41 kJ/mol × 8.01 molHeat required to melt 8.01 mol of HBr = 19.301 kJ

Step 4: Convert the heat in kJ to J by multiplying it with 1000: Heat required to melt 8.01 mol of HBr = 19.301 kJ = 19,301J. Finally, we get the result: The amount of heat energy required to melt 649.2 g of HBr is 12.99 kJ.

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The correct option is C,  Alcohol is the functional group that is most likely associated with the signal at m-18.

A functional group is a specific group of atoms that determines the chemical and physical properties of a compound. It is the reactive part of a molecule that defines its chemical behavior. A functional group is a group of atoms that are covalently bonded to the rest of the molecule, and their presence gives the molecule its characteristic properties.

Functional groups can be classified into various categories, such as hydrocarbons, alcohols, carboxylic acids, amines, and ethers. Each functional group has its own distinctive set of chemical properties and reactivity. For example, the presence of a carbonyl group in a molecule gives it the ability to undergo nucleophilic addition reactions.

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Complete Question:

A prominent peak at m-18 is seen in the mass spectrum of a compound containing c, h, and o. What functional group is associated with this signal?

A). Ketone

B). Ether

C). Alcohol

D). Phenol

The three limits of mineral deposits are (1) Economic Limit, (2) Technological Limit, and (3) Environmental Limit.

a brief overview of the three limits of mineral deposits.

1. Economic Limit: This refers to the point at which it becomes economically unfeasible to extract and process a mineral deposit. Factors such as declining ore grades, increased extraction costs, and market conditions can determine the economic viability of a deposit.

2. Technological Limit: This limit is determined by the available mining and processing technologies. If the required technologies for extraction, beneficiation, and refining are not advanced or cost-effective enough, the deposit may be technically unfeasible to develop.

3. Environmental Limit: This limit is set by environmental regulations and sustainability considerations. Mineral deposits located in environmentally sensitive areas or requiring extensive environmental mitigation measures may face limitations or even legal restrictions on extraction to minimize ecological damage and protect natural resources.

These three limits help define the boundaries within which mineral extraction can occur sustainably, balancing economic viability, technological feasibility, and environmental stewardship.

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Answer:

Question Answer

The half-life of cobalt-60 is 5.26 years. How many half-lives have passed in 10.52 years? 2

12.5% of a radioactive sample are left. How many half-lives have passed? 3

After 3 half-lives, how much of a 400 gram sample of radioactive uranium remains? 50g

Explanation:

The molar concentration of a 12% sodium chloride solution is approximately 2.05 M.

To determine the molar concentration of a 12% sodium chloride solution, we need to convert the given percentage concentration into molarity.

First, we need to understand that the percentage concentration refers to the mass of the solute (sodium chloride) relative to the total mass of the solution.

In this case, a 12% sodium chloride solution means that there are 12 grams of sodium chloride in 100 grams of the solution.

To convert this into molar concentration, we need to consider the molar mass of sodium chloride, which is 58.5 g/mol.

We can start by calculating the number of moles of sodium chloride in 12 grams:

Moles of sodium chloride = mass of sodium chloride / molar mass of sodium chloride

Moles of sodium chloride = 12 g / 58.5 g/mol = 0.205 moles

Next, we calculate the volume of the solution in liters using the density of the solution. Since the density is not provided, we assume a density of 1 g/mL for simplicity:

Volume of solution = mass of solution / density

Volume of solution = 100 g / 1 g/mL = 100 mL = 0.1 L

Finally, we calculate the molar concentration (Molarity) by dividing the number of moles by the volume in liters:

Molar concentration = moles of solute / volume of solution

Molar concentration = 0.205 moles / 0.1 L = 2.05 M

Therefore, the molar concentration of a 12% sodium chloride solution is approximately 2.05 M.


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Answer:

it helps bring energy to earth

Answer and Explanation: Many nuclei are radioactive, which means they emit particles to become stable. In the process, they also become a different element. There are 3 types of decay:

Problem #1:

1.) Astatine: Z = 85 and  A = 211

Alpha decay: \({{A=211} \atop {Z=85}} \right. At\) ⇒ \({{207} \atop {83}} \right. Bi + {{4} \atop {2}} \right. \alpha\)

The isotope created is Bismuth

Characteristics: Z = 83; e⁻ = 83; n = A - Z = 207 - 83 = 124

The isotope is Bismuth with 83 protons, 83 electrons and 124 neutrons.

Problem #2

1.) Lead: Z = 82 and A = 82

Beta decay: \({{209} \atop {82}} \right. Pb\) ⇒ \({{209} \atop {81}} \right. Tl+{{0} \atop {-1}} \right. \beta\)

The isotope created is talium.

2.) \({{209} \atop {82}} \right. Pb\) ⇒ \({{209} \atop {81}} \right. Tl+{{0} \atop {-1}} \right. \beta\)

\({{209} \atop {81}} \right. Tl\) ⇒ \({{205} \atop {79}} \right. Au+{{4} \atop {2}} \right. \alpha\)

\({{205} \atop {79}} \right. Au\) ⇒ \({{205} \atop {78}} \right. Pt+{{0} \atop {-1}} \right. \beta\)

3.) The isotope created is \({{205} \atop {78}} \right. Pt\).

p⁺ = 78; e⁻ = 78; n = 127

The isotope created ahs 78 protons, 78 electrons and 127 neutrons.

I think the answer is A. I know it's Planet X.

From the calculation, Suzanne is lying and she is guilty of killing her husband.

Stoichiometry provides a means of calculating the relationship between mass and mole or mole and volume in a reaction.

Now the preparation of ethylbenzene goes according to the reaction;

C6H6 + C2H6 ---->C6H5C2H5 + H2

Number of moles of benzene =  15 g/78 g/mol = 0.192 moles

Number of moles of ethyl benzene= 25 g/106 g/mol = 0.236 moles

Since the reaction is 1:1, 0.192 moles of ethyl benzene is produced.

Mass of 0.192 moles  of ethylbenzene =  0.192 moles * 106 g/mol = 20.4 g

Suzanne is lying.

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This type of pigmentation color harmony is known as a monochromatic color scheme.

Your question is about pigmentation color harmonies where one color and its tints and shades are placed side by side without mixing.
In a monochromatic color scheme, one base color is chosen, and its various tints and shades are used to create the harmony. This color scheme is achieved by adding white or black to the base color to create different shades and tints, without mixing it with other colors. The result is a visually cohesive and harmonious color palette with a single dominant hue.

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So,

First of all, there are too many types of intermolecular forces:

1. Dispersion forces: London dispersion force is a weak intermolecular force between two atoms or molecules in close proximity to each other. The force is a quantum force generated by electron repulsion between the electron clouds of two atoms or molecules as they approach each other. Every molecules have this kind of force.

2. Dipole: Dipole-dipole forces are attractive forces between the positive end of one polar molecule and the negative end of another polar molecule. They are much weaker than ionic or covalent bonds and have a significant effect only when the molecules involved are close together (touching or almost touching).

3. Hydrogen-bonding: Hydrogen bonding is a special type of dipole-dipole attraction between molecules, not a covalent bond to a hydrogen atom. It results from the attractive force between a hydrogen atom covalently bonded to a very electronegative atom such as a N, O, or F atom and another very electronegative atom.

Let's begin with hypobromous acid (HBrO).

HBrO is a compound that can form Hydrogen bonds since there's a hydrogen atom bonded to an Oxygen atom.

This compound also presents dispersion forces since atoms are close to each other.

And, there's also dipole-dipole forces because as you can see, there's a positive end (H+) and a negative end (BrO-).

Now, let's analyze SiH4:

SiH4 is composed of molecules, for which the only intermolecular forces are London dispersion forces.

There's no Hydrogen Bonding because Hydrogen can't bond to a very electronegative element such as O, N or F.

As you see, Si is not a very electronegative element.

And, there's not dipole-dipole forces because there's not a positive or a negative end. In this compound, H and Si share all their electrons but there's not any charges when they are close together.

Let's check now Oxygen difluoride (OF2):

As you can notice, London dispersion forces are present in all compounds, so, this is the first force identified.

Now, there's not Hydrogen, so, this molecule can't form Hydrogen-Bonds with itself.

If we look at the dipole-dipole forces, we can clearly notice that OF2 is a bent polar molecule. That means that it actually has this kind of force.

And, finally, carbon monoxide (CO):

Because CO is a polar molecule, it experiences dipole-dipole attractions.

We also know that there's London dispersion forces.

There's no Hydrogen Bonding in this molecule.

Answer:

It's option D

Explanation:

The refrigerator would use 180 kilowatt-hours (kWh) of electric energy over the course of 30 days, assuming it runs for 12 hours each day.

To calculate the kilowatt-hours (kWh) of electric energy used by the refrigerator in 30 days, we need to multiply the power rating by the total running time.

Given:

Power rating of the refrigerator = 500 W

Running time per day = 12 hours

Number of days = 30

First, we need to convert the power rating from watts to kilowatts:

Power rating = 500 W / 1000 = 0.5 kW

Next, we calculate the total energy used in kilowatt-hours (kWh) over the 30-day period:

Energy used = Power rating × Running time × Number of days

Energy used = 0.5 kW × 12 hours/day × 30 days

Energy used = 180 kWh

Therefore, the refrigerator would use 180 kilowatt-hours (kWh) of electric energy over the course of 30 days, assuming it runs for 12 hours each day.

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The given molecule C_12 H_22 O_11 is sucrose.

Sucrose of not dissociable in water hence Vant Hoff factor is 1

i.e

\(\boxed{\sf T_f=kmi}\)

For Sucrose

\(\\ \sf\longmapsto T_f=1(0.3)k=0.3k\)

Now.

Let's check Vant Hoff factor of each compound.

Let's count Freezing point of each compound.

m=0.075

\(\\ \sf\longmapsto T_f=0.075(4)k=0.3k\)

m=0.15

\(\\ \sf\longmapsto T_f=0.15(3)k=0.75k\)

m=0.3

\(\\ \sf\longmapsto T_f=0.3(2)k=0.6k\)

m=0.6

\(\\ \sf\longmapsto T_f=0.6k\)

Hence option A is correct

The pressure of a container with 2 moles of gas, a temperature of 500 k, and a volume of 2 l is 4.1 atm

The pressure, volume, number of moles or molecules, and temperature are all related by this law. In essence, the link between these four separate variables is provided by the ideal gas law. the rule that states that the sum of the absolute temperature of the gas and the universal gas constant is equal to the product of the pressure and volume of a single gram of an ideal gas.

pV = nRT

where

Volume of water V = 2L

Temperature T = 500K

Pressure= P

n= Number of moles of gas = 2 moles

R = 0.0082 atm dm³ K⁻¹mol⁻¹

pV = nRT

P = nRT/V

P = 2 moles 0.0082 atm dm³ K⁻¹mol⁻¹  500K / 2L

P = 4.1 atm

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Answer:

It is diffusion

Explanation:

Diffusion occurs when particles move from relatively high concentration to relatively low

Answer:

it is diffusion

Explanation:

smoke rises from one corner of the room and spreads to the rest of the room, resulting in diffusion

One mole of H₂S gas contains 6.022 × 10²³ H₂S molecules. Hence, 2.50 mol of H₂S contains 1.50 × 10²⁴ molecules. Thus, option A is correct.

Any substance containing 6.022 × 10²³ number of atoms is called one mole of that substance. This number is called Avogadro number. Thus, one mole every elements contains Avogadro number of atoms.

Similarly a compound is made of molecules. One mole of a compound contains 6.022 × 10²³ number of molecules. The mass of a compound with Avogadro number of molecules is called its molar mass.

As any other compound, one mole of H₂S contains 6.022 × 10²³ molecules. Therefore, the number of molecules in 2.50 moles of H₂S is :

2.50 moles × 6.022 × 10²³ molecules/mol =  1.50 × 10²⁴molecules

Hence, the number of molecules present in 2.50 moles of H₂S is  1.50 × 10²⁴.

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Answer:

Groups

Explanation:

groups are located horizontally

Answer:

c... just did it on a.pex

Answer:

O C. T=1/f

Explanation:

The period of a wave is the time taken for the wave to complete a cycle while the frequency of a wave is the number of cycles completed per unit time.

The period (T) is the inverse of frequency (f) and vice versa.

Hence mathematically, i can write;

T=1/f

The statements which  are true of water molecules as per forces of attraction are water molecules are polar.Water molecules undergo hydrogen bonding.Water molecules have a bent geometry.

Forces of attraction  is a force by which atoms in a molecule  combine. it is basically an attractive force in nature.  It can act between an ion  and an atom as well.It varies for different  states  of matter that is solids, liquids and gases.

The forces of attraction are maximum in solids as  the molecules present in solid are tightly held while it is minimum in gases  as the molecules are far apart . The forces of attraction in liquids is intermediate of solids and gases.

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Your question is incomplete, but most probably your full question was,Which of these statements would be true if the water molecule was linear instead of bent? Check all that apply. Water molecules are polar. Water molecules are nonpolar. Water molecules undergo hydrogen bonding. Water molecules have a linear geometry. Water molecules have a bent geometry.