in example 5.11 of the text the molar volume of n2 at STP is given as 22.42 L/mol how is this number calculatd how does the molar volume of h2 at stp compare th te molar volume of n2

Answer:

C.

Explanation:

C.   Glucose is stored in the liver as glycogen.

Both A. Starch and glycogen have the most similar functions among the given carbohydrates.

The two carbohydrates that have the most similar function are starch and glycogen. Both starch and glycogen are storage forms of glucose in plants and animals, respectively. They serve as a source of energy and are broken down into glucose when needed. Starch is found in plants, while glycogen is found in animals, but they both share the function of storing energy.

Thus, starch and glycogen serve similar functions as energy-storage molecules in living organisms. Both are polysaccharides composed of glucose units linked together. Plants store energy as starch, primarily in roots and seeds, while animals store energy as glycogen in the liver and muscles. These carbohydrates can be broken down to release glucose for energy when needed.

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Answer:

The answer to your question is letter A

Explanation:

Process

1.- Calculate the molecular mass of AlCl₃

Al = 1 x 27 = 27

Cl = 3 x 35.5 = 106.5

AlCl₃ = 27 + 106.5 = 133.5

2.- Find the number of ions of Cl using proportions

               133.5 grams of AlCl₃ ------------- 3 ions of Chlorine

               400.5 grams of AlCl₃ ------------   x

                x = (400.5 x 3) / 133.5

                x = 9

Answer:

d

Explanation:

the answer is d because when you solve it's d

Explanation:

Formula for the prediction of sponteneity of a reaction is as follows:

[tex]\Delta G=\Delta H - T\Delta S[/tex]

Where,

ΔG = Change in free energy

ΔH = Change in enthalpy

ΔS = Change in entropy

T = Temperature

If,

ΔG = -ve, then the reaction will be spontaneous

ΔG = 0, then the reaction will be in equilibrium

ΔG = +ve, then the reaction will be non-spontaneous

Answer:

True

Explanation:

True

As we know that quality of floodwater is highly poor therefore it is the utmost duty of everyone suffered from flood to clear all the container before use because it is needed to kill all bacteria that grow inside the container due to contact with floodwater. It may be have very high chances that the flood water may have contact with drainage water  or sewage, therefore it is compulsion now to clan all container with dilute chlorine bleach

Answer:

[tex]\large \boxed{\text{2.5 L}}[/tex]

Explanation:

1. Calculate the moles of NaOH.

[tex]\text{Moles} = \text{20 g} \times \dfrac{\text{1 mol}}{\text{40 g}} = \text{0.50 mol}[/tex]

2. Calculate the volume of NaOH

[tex]\begin{array}{rcl}\\\text{Molar concentration} &= &\dfrac{\text{moles}}{\text{litres}}\\\\ n &= &\dfrac{c}{V}\\\\\dfrac{\text{0.2 mol}}{\text{1 L}} &=& \dfrac{\text{0.50 mol}}{V}\\\\ \dfrac{0.2V}{\text{1 L}} & = & 0.50\\\\0.2V &= & \text{0.50 L}\\V & = & \dfrac{\text{0.50 L}}{0.2}\\\\& = & \textbf{2.5 L}\\\end{array}\\\text{The volume of the solution is $\large \boxed{\textbf{2.5 L}}$}[/tex]

Answer:

The 0.2M NaOH solution has a volume of 2.5 L

Explanation:

Step 1: Data given

Molarity of a NaOH solution = 0.2 M

Molar mass of NaOH = 40 g/mol

Mass of NaOH = 20.00 grams

Step 2: Calculate moles of NaOH

Moles = mass / molar mass

Moles NaOH = 20.00 grams / 40 g/mol

Moles NaOH = 0.50 moles

Step 3: Calculate volume

Molarity = moles / volume

Volume of solution = moles of NaOH / Molarity

Volume of solution = 0.50 moles / 0.2 M

Volume of solution = 2.5 L

The 0.2M NaOH solution has a volume of 2.5 L

Answer:

The temperature will be 137 K for the gas pressure to remain constant

Explanation:

If the gas pressure keeps on constant, volume of the gas will be modified according to temperature.

V1 / T1 = V2 / T2

4L / 274K = 2L / T2

(4L / 274K) . T2  = 2L

T2 = 2L . (274K / 4L)

T2 = 137K

There are 7 periods and 18 groups in a periodic table thus the statement that   rewords the false statement so it is true is b.

Periodic table is a tabular arrangement of elements in the form of a table. In the periodic table, elements are arranged according to the modern periodic law which states that the properties of elements are a periodic function of their atomic numbers.

It is called as periodic because properties repeat after regular intervals of atomic numbers . It is a tabular arrangement consisting of seven horizontal rows called periods and eighteen vertical columns called groups.

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The average kinetic energy of gas molecules increases with increasing temperature. There are gas molecules that move faster than the average.

Out of the given statements, the following are true:

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Answer: the most hazardous condition onboard a vessel is not having enough life jackets.

Explanation: a life jacket is a piece of equipment designed to assist a wearer to keep afloat in water in the event of an emergency and are considered life-saving equipment.

Answer:

The answer to your question is 0.14 M

Explanation:

Data

Molarity = ?

number of moles = 0.25

volume = 1.8 L

Formula

[tex]Molarity = \frac{number of moles}{volume}[/tex]

Substitution

[tex]Molarity = \frac{0.25}{1.8}[/tex]

Simplification and result

      Molarity = 0.14 M

Answer:B

Explanation:

A quaternary ammonium compound contains a nitrogen atom to which four atoms or groups are attached leaving a positive charge on the nitrogen. This compound is now cationic in nature and can be used as a cationic detergent.

Alcohol is a depressant drug that affects your coordination, judgment, perception, and emotional state.

A depressant drug is a type of psychoactive substance that slows down the activity of the central nervous system (CNS). It typically reduces brain function, resulting in a decrease in arousal, relaxation of muscles, and a sense of calmness.

Depressants can have various effects on the body and mind, including sedation, drowsiness, and reduced anxiety, and in higher doses, they can even induce sleep or unconsciousness. Alcohol is a common example of a depressant drug. Other examples include prescription medications like benzodiazepines (e.g., Valium, Xanax), barbiturates, and certain sleep aids.

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Alcohol is a depressant drug, having the ability to affect coordination, judgment, perception, and emotional state by slowing down the central nervous system.

Alcohol is a depressant drug that affects numerous systems in the body, including those that control coordination, judgment, perception, and emotional state. Alcohol's effects manifest in ways such as reduced motor control, impaired decision-making abilities, distorted sensory function, and variable mood changes. Alcohol, as a depressant, slows the central nervous system and alters a person’s perception, emotions, movement, vision, and hearing.

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Answer: The given statement is true.

Explanation:

Chemical bonds are defined as the bonds formed due to interaction of electrons of two same or different atoms. Basically, these electrons are physically attracted towards each other because of which either sharing or transfer of electrons tend to take place.

For example, Cl has 7 valence electrons and sodium has 1 valence electron. In order to gain stability when both sodium and chlorine will come closer then Cl will attract one electron from sodium leading to the formation of a new compound NaCl.

Thus, we can conclude that the statement chemical bonds are physical attractions between atoms resulting from the interaction of their electrons, is true.

Answer:

See explanation below

Explanation:

I'm assuming this is a table you need to complete, so, you are not putting this in order, but I already found it in another place. let's do a little summary of the expressions we need to use in order to complete the chart.

To calculate pH we need the following expression:

pH = -log[H3O+] (1)

From this expression we can solve for [H3O+] in case we need it:

[H3O+] = 10^(-pH)   (2)

When we have [OH-] we calculate the pOH and from there, the pH:

pOH = -log[OH-]  (3)

and [OH-]:

[OH-] = 10^(-pOH) (4)

Finally to get the pH from pOH:

14 = pH + pOH

pH = 14 - pOH (5)

With these 5 expressions we can complete the chart. In picture 1, you have the actual chart.

To know if it's acidic or basic, that depends on the value of pH.

If pH <7 it's acidic

If pH >7 it's basic

If pH = 7 it's neutral

First case:

[H3O+] = 3.5x10^-3

pH = -log(3.5x10^-3) = 2.46  (acidic)

pOH = 14 - 2.46 = 11.54

[OH-] = 10^(-11.54) = 2.88x10^-12 M

Second case:

pOH = -log(3.8x10^-7) = 6.42

pH = 14 - 6.42 = 7.58 (it's basic)

[H3O+] = 10^(-7.58) = 2.63x10^-8 M

Third case:

pH = -log(1.8x10^-9) = 8.74 (it's basic)

pOH = 14 - 8.74 = 5.26

[OH-] = 10^(-5.26) = 5.5x10^-6 M

Fourth case:

[H3O+] = 10^(-7.15) =7.08x10^-8 M   (Basic)

pOH = 14 - 7.15 = 6.85

[OH-] = 10^(-6.85) = 1.41x10^-7 M

Hope this can help you

To determine the missing pH values and whether the solutions are acidic or basic, apply the pH calculation formula and compare the resulting pH to 7. Solutions with a pH less than 7 are acidic, and those with a pH greater than 7 are basic.

The student has provided various concentrations of hydronium ([H3O+]) and hydroxide ([OH-]) ions and is looking to complete the table with the missing values for pH and whether the solution is acidic or basic. To find the pH, use the formula: pH = -log[H3O+]. If the resulting pH is less than 7, the solution is acidic, and if it's greater than 7, the solution is basic. A solution is neutral if its pH is exactly 7.

Using this information, for a solution with [H3O+] = 3.5×10⁻³ M, calculate the pH and determine the acidity. Similarly, for [H3O+] = 3.8×10⁻⁷ M and [H3O+] = 1.8×10⁻⁹ M, calculate their pHs. The solution is considered acidic if [H3O+] > 1×10⁻⁷ M. For pH = 7.15, the solution is slightly basic because the pH is greater than 7.

Answer:A

Explanation:

Arsenic is a p-block non-metal in group 15. It is found in the 4th period with electron configuration [Ar] 3d10 4s2 4p3

The outermost electrons are 4s2 4p3. The quantum number that fits an electron in the 4p orbital is option A

Since n=4,l=1, m= -1,0,1 ms=±1/2

Answer: water and other small molecules

Explanation: the walls of the glomerulus is semipermeable permitting only the passage of water and other small molecules like, mineral salts, amino acids, glucose, urea. Large molecules like plasma protein, Platelets does not pass through the membrane.

Hydrostatic pressure in the glomerulus causes water, ions, glucose, amino acids, urea, and other small molecules to move into the nephron tubule by filtering blood plasma through large pores in capillary walls in the kidney.

The substances moved from the glomerulus into the tubule due to hydrostatic pressure include water, ions, glucose, amino acids, urea, and other small molecules. The glomerular filtration is a process that occurs when glomerular hydrostatic pressure exceeds the luminal hydrostatic pressure of Bowman's capsule, overcoming the opposing osmotic pressure of the glomerular capillary to allow these substances to pass into the nephron tubule. Hydrostatic pressure is the driving force that filters the blood plasma through large-pored capillaries of the glomerulus, facilitated by the high blood pressure and flow through these capillaries.

Answer: Lightning and a fluorescent light bulb items contain plasma.

Explanation:

Plasma is defined as a state of matter which contains hot ionized gas having positively charged ions and negatively charged electrons.

For example, lightening and a fluorescent light bulb has plasma as the state of matter.

On the other hand, gelatin is a solid at room temperature as its molecules are closely packed to each other forming a fixed shape with fixed volume.

Lava is a molten rock which is actually present in liquid state.

Therefore, we can conclude that out of the given options both lightning and a fluorescent light bulb items contain plasma.

Answer: lightning

Explanation:

Answer:

2SO₂(g) + O₂(g) ↔ 2SO₃(g)     Kc = 15M⁻¹

The sets are:

(A) (SO₂)=0.16M; (O₂)=0.20M; (SO₃)=0.50M

(B) (SO₂)=0.20M; (O₂)=0.60M; (SO₃)=0.60M

(C) (SO₂)=0.50M; (O₂)=0.60M; (SO₃)=0.15M

The reaction quotient is

Q = [tex]\frac{[SO_{3}]^2}{[SO_{2}]^{2}*[O_{2}] }[/tex]

Now we calculate Q for each of the sets:

(A) Q = 0.50² / (0.16²*0.20) = 48.8

Q > Kc. So the reaction will proceed towards the left.

(B) Q = 0.60² / (0.20²*0.60) = 15

Q = Kc. So the reaction is at equilibrium.

(C) Q = 0.15² / (0.50²*0.60) = 0.15

Q < Kc. So the reaction will proceed towards the right.

Answer: D

Explanation:

3Fe^3+ + Al ---> 3Fe^2+ + Al^3+

Total charge of reactants = 3 x +3 = +9

Total charge of products = (3 x +2) + (+3) = +9

Answer:

D

Explanation:

The AI generated answer is incorrect this update is very bad... The total charge of the reactants for option D is +9 because Al is by itself, meaning it has a charge of 0. (The AI said the total charge of the reactants was +10 which is wrong)

The mass fraction of argon is calculated by dividing the mass of argon by the total mass of the mixture. The question does not provide specific masses, but the process would involve using provided mass data to calculate the fraction.

The question concerns the determination of the mass fraction of argon in a mixture of hydrogen, helium, and argon. To calculate the mass fraction, you need to know the mass of argon in the mixture in relation to the total mass of the mixture. Unfortunately, the mass of argon and the total mass are not provided in the given information. However, if such data were available, the mass fraction of argon would be calculated by taking the mass of argon and dividing it by the total mass of the gas mixture. Remember, the mass fraction is often expressed as a percentage.

For instance, if a sample of this gas mixture weighed 10.0 grams in total and was found to contain 3.0 grams of argon, then the mass fraction of argon would be the mass of argon (3.0 g) divided by the total mass (10.0 g), resulting in a mass fraction of 3.0/10.0 or 30% for argon.

Answer:

See explanation below

Explanation:

This is a four part question, however, I will answer only the question you are asking which is, the property of aluminum that could make a better choice over than copper for a cooking pan.

As it was stated in the question, Copper has a higher density than the aluminum, therefore, copper would weight more than aluminum, making more difficult to manage. Aluminum then, has less mass than copper, and this is more effective and comfortable to use rather than a copper pan, that weight more and it could be very noisy to manage, than an aluminum pan with the same size.

If density of copper is 3.3 times greater, means that the mass of copper is also 3.3 times greater, therefore, if an aluminum pan weights about 400 g, a copper pan will weight more than 1.2 kg, and that's more difficult to manage and for the use.  

Answer:

d. the mobility of electrons

Explanation:

Covalent bond is the bond which is formed with the sharing of the electrons between the two atoms which are taking place in the bond. It is generally formed between the atoms with similar electronegativity values.

Metallic bond is the bond which is formed by electrostatic attraction force between the positively charged metal ions and the conduction electrons.

Thus, in metallic bond, there is a formation of conduction band and the valence band where the electrons have mobility and have transitions in between them but in covalent bonding, the electrons are shared in the bond and are not mobile.

Answer:

D. the mobility of electrons

Answer:

K > 5.1

Explanation:

Assuming we have the following equilibrium system:

[tex]H_2 (g) + Br_2 (g)\rightleftharpoons 2 HBr (g)[/tex]

Since hydrogen is colorless and bromine is reddish brown and because the color of this mixture fades as the reaction progresses toward equilibrium, this means bromine is consumed in this reaction. Both hydrogen and bromine here are reactants, so their partial pressures will decrease (as the color of bromine disappears) and the partial pressure of HBr will increase.

According to the given equation, we may write the equilibrium constant for it as:

[tex]K_{eq} = \frac{[HBr]^2}{[H_2][Br_2]}[/tex]

Let's assume that -x atm will be the change for each of the reactants, then we'd have a +2x atm change for the product, as it has a coefficient of '2'. At equilibrium we expect to have a total of:

[tex][H_2]_{eq} = [Br_2]_{eq} = 0.40 atm - x, [HBr]_{eq} = 0.90 atm + 2x[/tex]

We know that reaction proceeds to the right, meaning the reaction quotient, Q, is lower than the equilibrium constant. Find Q by substituting the initial conditions into the expression of K:

[tex]Q=\frac{(0.90)^2}{0.40\cdot 0.40}=5.1[/tex]

Now, since K > Q, this means K > 5.1.

Answer:

24e⁻ are transferred by the reaction of respiration.

Explanation:

C₆H₁₂O₆   +  6O₂   →   6 H₂O   +  6CO₂

This is the reaction for the respiration process.

In this redox, oxygen acts with 0 in the oxidation state on the reactant side, and -2 in the product side -  REDUCTION

Carbon acts with 0 in the glucose (cause it is neutral), on the reactant side and it has +4, on the product side - OXIDATION

6C →  6C⁴⁺  +  24e⁻

In reactant side we have a neutral carbon, so as in the product side we have a carbon with +4, it had to lose 4e⁻ to get oxidized, but we have 6 carbons, so finally carbon has lost 24 e⁻

6O⁻² +  6O₂  + 24e⁻  →  6O₂²⁻  +  6O⁻²

In reactant side, we have 6 oxygen from the glucose (oxidation state of -2) and the diatomic molecule, with no charge (ground state), so in the product side, we have the oxygen from the dioxide with -2 and the oxygen from the water, also with -2 at the oxidation state. Finally the global charge for the product side is -36, and in reactant side is -12, so it has to win 24 e⁻ (those that were released by the C) to be reduced.

Answer:

C6H6

Explanation:

We can obtain the molecular formula from the empirical formula.

What we need do here is:

(CH)n = 78

The n shows the multiples of both element present in the actual compound. It can be seen that carbon and hydrogen have the same element ratio here. We then use the atomic masses of both elements to get the value of n. The atomic mass of carbon is 12 a.m.u while the atomic mass of hydrogen is 1 a.m.u

(1 + 12)n = 78

13n = 78

n = 78/13 = 6

The molecular formula is

(CH)n = (CH)6 = C6H6

The citric acid cycle, part of cellular respiration, introduces two carbon atoms per cycle that eventually become carbon dioxide. Considering a glucose molecule with six carbon atoms, it takes three turns of the cycle for all atoms to become carbon dioxide. However, not all exhaled carbon dioxide by animals is from the citric acid cycle, as a large fraction is formed from bicarbonate in the blood.

The citric acid cycle (also known as the Krebs cycle) is a key component of cellular respiration, the process by which cells generate energy. At each turn of the cycle, two carbon atoms enter as part of an acetyl group. These two carbon atoms will eventually be released as carbon dioxide. However, this does not occur immediately on that cycle's turn, but on later turns. Therefore, for each glucose molecule, which consists of six carbon atoms, it takes three turns of the citric acid cycle to fully incorporate all carbon atoms into carbon dioxide.

Now, considering all the carbon dioxide exhaled by an animal, a large fraction (about 70 percent) is formed as bicarbonate in the blood, transported to the lungs, and then converted back to carbon dioxide to be exhaled. This implies that the reactions of the citric acid cycle generate a significant amount of the exhaled carbon dioxide, although not all of it.

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The citric acid cycle is a crucial part of cellular respiration that generates a significant portion of the carbon dioxide exhaled by animals, with two carbon dioxide molecules released per acetyl-CoA oxidized.

The fraction of carbon dioxide exhaled by animals that is produced by the citric acid cycle is significant, as this cycle is a key component of cellular respiration. During the citric acid cycle, which takes place in the mitochondria, acetyl-CoA is oxidized, producing electron carriers that later contribute to ATP synthesis during oxidative phosphorylation. Importantly, two molecules of carbon dioxide are released for each acetyl-CoA molecule that enters the cycle. Since glucose is broken down into two molecules of acetyl-CoA, this means four molecules of carbon dioxide are produced from one molecule of glucose during the citric acid cycle.

Moreover, animals rely heavily on both carbohydrates and lipids for energy, which are oxidized to produce carbon dioxide and water. Therefore, the citric acid cycle plays a fundamental role in the carbon dioxide that animals exhale. It is difficult to specify the exact fraction without considering carbon dioxide production from other metabolic pathways, but it is understood to be a substantial portion considering the overall metabolic process.

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Answer:B

Explanation:

Below is attached an image of ozone and the resonance structures. Ozone is an angular (Bent) molecule as seen in the image below. It is best described by resonance structures as shown.

From the options, the molecule that has an angular geometry and is commonly represented as a resonance hybrid is : ( B ) O₃

The Ozone gas is a reactive gas that is formed by the bonding of three oxygen atoms. it occurs in the atmosphere as man-made or natural gas. its geometry is angular as it is a resonance that represents the two or more electron dot structures ( combination of three oxygen atoms ).

Hence we can conclude that the molecule from the options above that has an angular geometry is the Ozone gas ( O₃ ).

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Answer:

(a) 1.77*10^15 Xe atoms

(b) 2.10*10^16 Ne atoms

(c) 2.10*10^16 He atoms

Explanation:

Total V = 0.900 mm * 0.300mm * 10.0mm

Total V = 2.7mm cubed

Converting cubed to litres:

2.7mm cubed = 2.7 * 10^-6 Liters

Converting pressure from torr to atm,

(500 torr) * (1 atm ÷ 760 torr) = 0.6578947368 atm

Room temperature is assumed to be 21 degrees celcius, or 294.15 Kelvin

Applying Ideal Gas Equation:

PV = nRT

Therefore, n = PV ÷ RT,

n = [(2.7*10^-6 Liters)(.6578947368 atm)] ÷ [(0.08206)(294.15)]

n = 7.359017079 * 10^-8

Therefore, the total moles present in plasma is 7.359017079 * 10^-8.

(a) To find Xe atoms,

Multiply the total moles present by 4 percent. Therefore,

(7.359017079 * 10^-8)(.04) = 2.943606832*10^-9,

this value gives you Xe moles.

Then multiply by Avogadro's constant:

[(2.943606832*10^-9)(6.022*10^23)] = 1.77*10^15 Xe atoms

(b) and (c) are the same.

Using the total moles number we found in the beginning and minus the number of moles for Xe.

We have:

7.359017079 * 10^-8 - 2.943606832*10^-9 = 7.064656396*10^-8

And Since Ne and He are in a 1:1 ratio, divide this number by two.

We have:

7.064656396*10^-8 ÷ 2 = 3.532328198*10-8 moles

By multiplying this number by Avogadro's number we get atoms:

[(3.532328198*10-8 moles)(6.022*10^23)] = 2.10*10^16

Therefore, the answer for both (b) and (c) is 2.10*10^16.

Using the Ideal Gas Law and Avogadro's Law, along with the given pressure and compositional information, we can calculate the total number of Xenon, Neon, and Helium atoms in the given plasma cell.

This question is asking for the calculation of the number of Xenon (Xe), Neon (Ne), and Helium (He) atoms within a plasma cell. Starting from the total pressure of the gas mixture,  the Ideal Gas Law, which is PV = nRT (where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature), can be used to calculate the total moles of the gas mixture.

Here we assume standard ambient temperature, which is usually 298K. From that, we can calculate the total number of atoms in the cell using Avogadro’s Law, 1 mole = 6.022*10^23 atoms. Using the given percentage of Xe, and the 1:1 Ne:He ratio, we can determine the number of each atom respectively.

It's worth noting that factors like temperature and density indeed play a significant role in the behavior of gases and the calculation of moles and atoms. However, in this simplified scenario, these factors are either given or assumed to be standard.  

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Answer:

Explanation:

All of them. Dopamine is a neurotransmitter.

1. Dopamine is synthesized in the neuron by hydroxylating L-tyrosine via Tyrosine Kinase pathway.

2. Dopamine activates neuronal brain function.

3. Injection of L-DOPA mimics the dopamine and effects the same as neuronal stimulation.

4. Dopamine is converted to Adrenaline/Noradrenaline by Kinases and further removed from Kidneys by glucronidation.

Answer:

The value of the given expression in  correct number of significant figures:

[tex](2.08\times 10^3)\times (3.11\times 10^2)[/tex]

= [/tex]6.47\times 10^5[/tex]

Explanation:

The rule apply for the multiplication and division is :

The least number of significant figures in any number of the problem determines the number of significant figures in the answer.

The rule apply for the addition and subtraction is :

The least precise number present after the decimal point determines the number of significant figures in the answer.

We have :

[tex](2.08\times 10^3)\times (3.11\times 10^2)[/tex]

[tex]=2.08\times 3.11\times 10^{3+2}[/tex]

[tex]=6.4688\times 10^5\approx 6.47\times 10^5[/tex]