1aluminum has a heat of fusion of 0.9 j/g. if you have 23.9g of aluminum, how much energy would be required to melt this amount of aluminum at 660.3°c?

Answers

Answer 1

Aluminum has a heat of fusion of 0.9 j/g. if you have 23.9g of aluminum, 21.51 J of energy would be required to melt this amount of aluminum at 660.3°c.

To calculate the energy required to melt 23.9 g of aluminum, we need to use the following formula:

Q = m * ΔHfus

where Q is the energy required, m is the mass of aluminum, and ΔHfus is the heat of fusion of aluminum.

Substituting the given values, we get:

Q = 23.9 g * 0.9 J/g = 21.51 J

Therefore, 21.51 J of energy would be required to melt 23.9 g of aluminum at 660.3°C.

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Related Questions

Of the following compounds, which is the most ionic? A) SiCl4 B) BrCl C)PCl3 D) Cl2O E) CaCl

Answers

(C) PCI3 thats the answer

.if you dilute 0.20 l of a 3.5 m solution of lici to 0.90 l, determine the new concentration of the
solution.

Answers

The new concentration of the solution can be calculated using the dilution formula, which states that the initial concentration multiplied by the initial volume (V1) is equal to the new concentration multiplied by the new volume (V2).

In this case, the equation would be: (3.5M)(0.20L) = (xM)(0.90L). Solving for x, we get the new concentration of the solution as 3.17M.

In other words, when a 3.5M solution of lici is diluted from 0.20L to 0.90L, the new concentration of the solution is 3.17M. This is because when the volume of a solution is increased, the concentration of the solution decreases proportionately.

Thus, when the volume of the solution is increased by a factor of four and a half, the concentration of the solution is reduced by the same factor.

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How will this investigation explain joe's 2kg barbell that was left under the sun for about 30 minutes was so much hotter than his 10 kg barbell that was left in the sun for the same amount of time?​

Answers

This investigation will explain why Joe's 2kg barbell was much hotter than his 10kg barbell after being left in the sun for the same amount of time. Heat is transferred through a process called conduction, which is the direct transfer of thermal energy between two objects in contact. This process is directly proportional to the thermal conductivity of the material and the surface area between the two objects.

Since Joe's 2kg barbell has a smaller surface area than his 10kg barbell, it will experience more heat transfer in a given time period, making it hotter than the 10kg barbell.

Additionally, certain materials have higher thermal conductivities than others, meaning they can transfer heat more quickly. Thus, the material of both barbells could also have a significant effect on the amount of heat transferred to each.

Ultimately, this investigation will explain why Joe's 2kg barbell became hotter than his 10kg barbell in a similar time period, based on their respective surface areas and the materials of which they are made.

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Predict the phenotypic and genotypic outcome (offspring) of a cross betweenn

two plants heterozygous for round peas

Answers

The predicted phenotypic outcome of this cross will be that 75% of the offspring will have a round phenotype, while 25% will have a wrinkled phenotype.

To predict the phenotypic and genotypic outcome of a cross between two plants heterozygous for round peas, we need to first understand the genetics involved.

Round peas are dominant over wrinkled peas, which means that the genotype for round peas can be either homozygous dominant (RR) or heterozygous (Rr), while the genotype for wrinkled peas is homozygous recessive (rr).

When two plants heterozygous for round peas are crossed (Rr x Rr), there are three possible genotypic outcomes for their offspring: RR, Rr, or rr. However, because round peas are dominant, any offspring with at least one R allele (RR or Rr) will have a round phenotype.

Therefore, the predicted phenotypic outcome of this cross will be that 75% of the offspring will have a round phenotype, while 25% will have a wrinkled phenotype. The predicted genotypic outcome will be that 25% of the offspring will be homozygous dominant (RR), 50% will be heterozygous (Rr), and 25% will be homozygous recessive (rr).

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How many grams of CaCl2 would be required to produce a. 750 M solution with a 855 ml volume?

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8.32 grams of CaCl2 are required to produce 750 ml of a 0.100 M CaCl2 solution.

The number of moles of solute that can dissolve in 1 L of a solution is known as molarity or molar concentration.

Volume of solution (in litres) / Number of solutes (in moles), or

C = n / V

According to the question,

V = 750 ml and C = 0.100 M

Let's convert millilitres to litres for this.

We know 1 L = 1000 ml

Consequently, 750 ml equals (750/1000) L, or 0.75 L.

So, V = 0.75 L

We know that C = n / V

So, n = C x V

n = 0.100 x 0.75 = 0.075

The solute contains n moles in total.

CaCl2 thus has a mole count of 0.075 moles.

In 750 ml of solution, this demonstrates that there are 0.075 moles of CaCl2.

We must know the molar mass of CaCl2 in order to calculate the mass of CaCl2 in grams.

To do this, we must use the periodic table to determine the atomic masses of each atom.

CaCl2 consists of 1 Ca and 2 Cl atoms.

Atomic mass of Ca is 40.08 g and that of Cl is 35.45, so 2 x 35.45 = 70.90 g.

We obtain the mass of CaCl2 in grams by averaging these measurements.

Hence, mass of CaCl2 = 40.08 + 70.90 = 110.98 g

Thus, 110.98 g equals 1 mole of CaCl2.

Therefore, 0.075 moles of CaCl2 will weigh 8.3235 g, which is rounded to 8.32 g, or 0.075 x 110.98 g.

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The complete question is

How many grams of calcium chloride will be needed to make 750 mL of a 0.100 M CaCl2 solution?

A gas occupies 12.0 Lat 25°C. What is the volume at 333.0 °C?

Answers

The volume of the gas at 333.0°C is 24.5 L. To solve this problem, we can use the combined gas law, which relates the pressure, volume, and temperature of a gas.

The combined gas law is expressed as:

(P₁V₁)/T₁ = (P₂V₂)/T₂

where P₁, V₁, and T₁ are the initial pressure, volume, and temperature of the gas, and P₂, V₂, and T₂ are the final pressure, volume, and temperature of the gas.

In this case, we know that the initial volume V₁ is 12.0 L and the initial temperature T₁ is 25°C. We want to find the final volume V₂ when the temperature is 333.0°C. We also know that the pressure remains constant.

To use the combined gas law, we need to convert the temperatures to the absolute scale (Kelvin) by adding 273.15 to each temperature. So, T₁ = 298.15 K and T₂ = 606.15 K.

Plugging in the values into the equation, we get:

(P₁V₁)/T₁ = (P₂V₂)/T₂

(P₁ x 12.0)/298.15 = (P₂ x V₂)/606.15

Since the pressure is constant, we can simplify the equation to:

V₂ = (P₁ x V₁ x T₂)/(T₁ x P₂)

Substituting the values, we get:

V₂ = (1 x 12.0 x 606.15)/(298.15 x 1)

V₂ = 24.5 L

Therefore, the volume of the gas at 333.0°C is 24.5 L.

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What is the mass of a sample of NH3 containing 3. 80 × 10^24 molecules of NH3?

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The mass of a sample of NH₃ containing 3.80 × 10²⁴ molecules of NH₃ is the product of the number of moles and the molar mass of NH₃.

To find the mass of a sample of NH₃ containing 3.80 × 10²⁴ molecules of NH₃.

Step 1: Determine the number of moles of NH₃
We know that there are 6.022 × 10²³ molecules in one mole of any substance (Avogadro's number). To find the number of moles of NH₃, divide the given number of molecules by Avogadro's number:
Number of moles = (3.80 × 10²⁴ molecules) / (6.022 × 10²³ molecules/mol)

Step 2: Calculate the molar mass of NH₃
NH₃ consists of one nitrogen (N) atom and three hydrogen (H) atoms. The atomic mass of nitrogen is approximately 14 g/mol, and the atomic mass of hydrogen is approximately 1 g/mol. So the molar mass of NH₃ is:
Molar mass of NH₃= (1 × 14 g/mol) + (3 × 1 g/mol) = 14 + 3 = 17 g/mol

Step 3: Find the mass of the sample
Now that we know the number of moles and the molar mass, we can find the mass of the sample by multiplying the two values:
Mass of the sample = Number of moles × Molar mass of NH₃

The mass of a sample of NH₃ containing 3.80 × 10²⁴ molecules of NH₃ is the product of the number of moles (calculated in step 1) and the molar mass of NH₃ (calculated in step 2).

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Determine the pressure in atm exerted by 1 mole of methane placed into a bulb with a volume of 244. 6 mL at 25°C. Carry out two calculations: in the first calculation, assume that methane behaves as an ideal gas; in the second calculation, assume that methane behaves as a real gas and obeys the van der Waals equation

Answers

When, 1 mole of methane at 25°C in a 244.6 mL bulb would exert a pressure of 2.79 atm assuming it behaves as a real gas and obeys the van der Waals equation.

First, let's calculate the pressure exerted by 1 mole of methane at 25°C assuming it behaves as an ideal gas;

We can use Ideal Gas Law to calculate the pressure;

PV = nRT

where P is pressure, V is volume, n is number of moles, R is gas constant, and T is the temperature in Kelvin.

Converting the volume of the bulb to liters and the temperature to Kelvin;

V = 244.6 mL = 0.2446 L

T = 25°C = 298 K

For 1 mole of methane;

n = 1 mole

The gas constant for the Ideal Gas Law is;

R = 0.0821 L·atm/(mol·K)

Substituting the values into Ideal Gas Law equation;

P = (nRT) / V

P = (1 mole) x (0.0821 L·atm/(mol·K)) x (298 K) / (0.2446 L)

P = 3.24 atm

Therefore, 1 mole of methane at 25°C in a 244.6 mL bulb would exert a pressure of 3.24 atm assuming it behaves as an ideal gas.

Now, let's calculate the pressure exerted by 1 mole of methane at 25°C assuming it behaves as a real gas and obeys the van der Waals equation;

The van der Waals equation is;

(P + a(n/V)²) (V - nb) = nRT

where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, T is the temperature in Kelvin, a is a constant that takes into account the attractive forces between molecules, b is a constant that takes into account the volume of the molecules, and (n/V) is the molar density.

For methane, the values of the van der Waals constants are;

a = 2.253 atm L²/mol

b = 0.0428 L/mol

Substituting the values into the van der Waals equation and solving for P;

P = (nRT / (V - nb)) - (a(n/V)² / V²)

P = (1 mole) x (0.0821 L·atm/(mol·K)) x (298 K) / (0.2446 L - (0.0428 L/mol x 1 mole)) - (2.253 atm L²/mol² / (0.2446 L)²)

P = 2.79 atm

Therefore, the pressure is  2.79 atm.

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Put these atoms in order from most positive overall charge to least positive overall charge.


Atom B: 24 protons, 19 electrons
Atom A: 14 protons, 16 electrons
Atom R: 26 protons, 24 electrons
Atom P: 8 protons, 11 electrons PLEASE HELP FAST

Answers

Order/Answer: 1. Atom B. 2. Atom R 3. Atom A. and then 4. Atom P. (Sorry this was rushed, I believe it is correct though.)

What is the strongest type of intermolecular forces present between the hydrocarbon chains of neighboring stearic acid molecules?

Answers

The strongest type of intermolecular forces present between the hydrocarbon chains of neighboring stearic acid molecules is van der Waals forces, specifically London dispersion forces.

These forces arise due to temporary fluctuations in electron distribution, causing momentary dipoles that attract adjacent molecules.

Stearic acid is a long-chain fatty acid consisting of a hydrocarbon chain (nonpolar) and a carboxylic acid functional group (polar). The hydrocarbon chains in stearic acid are composed of carbon and hydrogen atoms, resulting in a relatively nonpolar nature.

London dispersion forces, also known as instantaneous dipole-induced dipole interactions, are intermolecular forces that occur between all molecules, including nonpolar molecules like stearic acid.

These forces arise due to temporary fluctuations in the electron distribution around atoms or molecules, leading to the formation of temporary dipoles.

In the case of stearic acid, the temporary dipole moment that arises in one molecule induces a corresponding dipole in the neighboring molecule, creating an attractive force between them.

These temporary dipoles result from the uneven distribution of electrons at any given moment, leading to the establishment of temporary positive and negative charges.

The strength of London dispersion forces depends on factors such as the size of the molecules involved and the ease of electron movement within them.

In the hydrocarbon chains of stearic acid, the presence of a large number of carbon atoms increases the surface area available for intermolecular interactions, making the London dispersion forces relatively stronger.

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the process in which an atom or ion experiences a decrease in its oxidation state is _____________.

Answers

Answer:

Reduction

Explanation:

when an atom or ion decreases in oxidation state

The process in which an atom or ion experiences a decrease in its oxidation state is called reduction.

Reduction is the opposite of oxidation, which is the process in which an atom or ion experiences an increase in its oxidation state. In a redox (reduction-oxidation) reaction, one species undergoes reduction while the other undergoes oxidation.

In the process of reduction, the species gains electrons, resulting in a decrease in its oxidation state. The reducing agent is the species that donates electrons, while the oxidizing agent is the species that accepts electrons.

Reduction reactions are important in many chemical and biological processes, including metabolism, photosynthesis, and corrosion. The study of redox reactions is important in understanding the behavior of chemicals in natural and industrial processes.

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Elementary analysis showered that an organic compound contained c, h, n and o as the only elementary constituent. a 1.279g sample was burnt completely as a result of which 1.6g of co2, 0.77g of h2o were obtained. a separately weighted of nitrogen. what is the empirical formula of the compound?

Answers

The empirical formula of the compound is C₂H₆O₂N.

To determine the empirical formula, we need to find the mole ratios of the elements in the compound. First, we can calculate the moles of CO₂ and H₂O produced from the combustion reaction:

moles of CO₂ = 1.6 g / 44.01 g/mol = 0.0364 mol

moles of H₂O = 0.77 g / 18.015 g/mol = 0.0428 mol

Next, we can calculate the moles of C, H, and O in the original sample using the mass balance:

moles of C = moles of CO₂ = 0.0364 mol

moles of H = (moles of H₂O) x (2 H atoms per molecule) = 0.0856 mol

moles of O = (moles of CO₂) x (2 O atoms per molecule) = 0.0728 mol

Finally, we can calculate the moles of N using the separate measurement:

moles of N = 0.0403 g / 14.01 g/mol = 0.00287 mol

To get the empirical formula, we need to find the smallest whole number ratio of the elements. Dividing each of the moles by the smallest value (0.00287 mol) gives:

C = 12.64 / 0.00287 = 4.39 ≈ 4

H = 17.13 / 0.00287 = 5.96 ≈ 6

O = 25.38 / 0.00287 = 8.83 ≈ 9

N = 0.00287 / 0.00287 = 1

So the empirical formula is C₂H₆O₂N, which has a molar mass of 90.09 g/mol. However, this is only the empirical formula and not the molecular formula, which could be a multiple of the empirical formula.

Further analysis would be needed to determine the molecular formula of the compound.

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If you have a 6. 2 L container with a pressure of 1. 5 atm, how many moles are present if the temperature is 38 o C? (0. 0821 L atm/mol K)



a


2. 28


b


0. 28


c


0. 31


d


0. 36

Answers

Correct option is d)0.36
To find the number of moles present, we can use the Ideal Gas Law formula:

PV = nRT

Where:
P = pressure (1.5 atm)
V = volume (6.2 L)
n = number of moles (which we need to find)
R = gas constant (0.0821 L atm/mol K)
T = temperature in Kelvin (38°C + 273.15 = 311.15 K)

Rearranging the formula to solve for n:

n = PV / RT

Plugging in the given values:

n = (1.5 atm * 6.2 L) / (0.0821 L atm/mol K * 311.15 K)

n ≈ 0.36 moles

Th answer is: d) 0.36

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Which of the following chemical reactions represents a single replacement reaction?

A. H3PO4 (aq) + NH4OH (aq) NH4PO4 (aq) + H2O (l)

B. Ca(OH)2 (aq) + Al2(SO4)3 (aq) CaSO4 (aq) + Al(OH)3 (aq)

C. Na (aq) + H2O (aq) NaOH (aq) + H2 (g)

D. NH4OH (aq) + KCl (aq) KOH (aq) + NH4Cl (aq)

Answers

C. Na (aq) + H2O (aq) NaOH (aq) + H2 (g) of the following chemical reactions represents a single replacement reaction

What three categories of single replacement responses exist?

When a more reactive ingredient in a compound replaces a less reactive element, the reaction is referred to as a single displacement reaction. Metal, hydrogen, and halogen displacement reactions are the three different types of displacement reactions.

When chlorine is introduced to a solution of sodium bromide in gaseous form (or as a gas dissolved in water), bromine is replaced by chlorine. Sodium bromide's bromine is replaced with chlorine because it is more reactive than bromine, which causes the solutions to become blue.

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why does the pinacol rearrangement more often use sulfuric acid, h 2 s o 4 , as the acid catalyst rather than hydrochloric acid, h c l ?

Answers

The pinacol rearrangement more often use the sulfuric acid, H₂SO₄ , as the acid catalyst rather than the hydrochloric acid, HCl is because H₂SO₄ have the more proton than that of the HCl.

The pinacol rearrangement process will takes place through 1,2-rearrangement. This rearrangement will involves the shift of the two adjacent atoms. Pinacol is the compound which has the two hydroxyl groups, each of the attached to the vicinal carbon atom. It is the solid organic compound which is the white.

The H₂SO₄ have the more proton than that of the HCl. This will makes the pinacol rearrangement more often use the sulfuric acid H₂SO₄ , as the acid catalyst and rather than the hydrochloric acid, HCl.

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Sort the disciptions of open clusters and globular clusters into the correct categories

Answers

Open clusters:

Found in the disk of the galaxyYoung starsFew hundred to a few thousand starsLoosely bound by gravityIrregular shape

Globular clusters:

Found in the halo of the galaxyOld starsTens of thousands to millions of starsTightly bound by gravitySpherical shape

What are clusters?

Clusters are collections of stars that are gravitationally connected to one another and close to one another in astronomy. Open clusters and globular clusters are the two basic categories into which they can be separated.

While globular clusters are collections of much older stars that are tightly bound together into a spherical shape, open clusters are collections of much younger stars that are relatively loosely bound together.

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A gas with a constant volume had an original pressure of 1150 torr and a


temperature of 75. 0 "C. Pressure was decreased to 760 torr. What is the final


temperature of the gas?


A) -43. 0°C


B) 49. 6°C


C) 230°C


D) -251°C

Answers

The ideal gas law states that the pressure of a gas is directly proportional to its temperature when held at a constant volume. This means that when the pressure is decreased, the temperature must also decrease.

To calculate the new temperature, use the equation P1/T1 = P2/T2, where P1 is the original pressure, T1 is the original temperature, P2 is the new pressure, and T2 is the new temperature.

Using the values given in the question, we get 1150/75.0 = 760/T2. Solving for T2, we get T2 = 49.6°C. Therefore, the final temperature of the gas is 49.6°C.

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The volume of a sample of hydrogen gas at 0. 997 atm is 5. 00 L. What will be the new volume if the pressure is decreased to 0. 977 atm?

Answers

The new volume of the hydrogen gas is 5.12 L when the pressure is decreased to 0.977 atm.

The relationship between pressure and volume is described by Boyle's Law, which states that when the pressure of a gas decreases, its volume increases proportionally, and vice versa. In other words, the pressure and volume of a gas are inversely proportional, assuming temperature and amount of gas remain constant.

In this case, the initial pressure of the hydrogen gas is 0.997 atm, and its initial volume is 5.00 L. If the pressure is decreased to 0.977 atm, we can use Boyle's Law to calculate the new volume:

P1V1 = P2V2

Where P1 and V1 are the initial pressure and volume, and P2 and V2 are the new pressure and volume.

Substituting the given values, we get:

(0.997 atm)(5.00 L) = (0.977 atm)(V2)

Solving for V2, we get:

V2 = (0.997 atm)(5.00 L) / (0.977 atm)

V2 = 5.12 L

Therefore, the new volume of the hydrogen gas is 5.12 L when the pressure is decreased to 0.977 atm.

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If we began the experiemtn with 0.70 g of cucl2 x 2 h2o, according to the stoichiometry o the reaction, how much al should be used to complete the reaction withtout either reactant being in excess

Answers

0.70 g of CuCl₂ • 2 H₂O reacts completely with 0.48 g of Al. The molar ratio of CuCl₂ • 2 H₂O to Al is 1:2. The reaction completes without any excess reactant.

The balanced chemical equation for the reaction between CuCl₂ • 2 H2O and Al is:

3CuCl₂ • 2 H₂O + 2Al → 3Cu + 2AlCl₃ + 6H₂O

From the equation, we can see that 3 moles of CuCl₂ • 2 H₂O react with 2 moles of Al. We need to find the amount of Al required to react completely with 0.70 g of CuCl₂ • 2 H₂O.

1 mole of CuCl₂ • 2 H₂O has a mass of (63.55 + 2 x 35.45 + 2 x 18.02) g = 170.48 g

0.70 g of CuCl₂ • 2 H₂O is equal to 0.70/170.48 = 0.0041 moles of CuCl₂ • 2 H₂O

From the balanced equation, we can see that 3 moles of CuCl₂ • 2 H₂O react with 2 moles of Al.

Therefore, the moles of Al required is (2/3) x 0.0041 = 0.0027 moles.

The molar mass of Al is 26.98 g/mol. Therefore, the mass of Al required is:

0.0027 moles x 26.98 g/mol = 0.073 g

Therefore, 0.073 g of Al should be used to complete the reaction without either reactant being in excess.

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Complete question :

If we began the experiment with 0.70 g of CuCl₂ • 2 H₂O, according to the stoichiometry of the reaction, how much Al should be used to complete the reaction without either reactant being in excess? Show your calculations.

An archeological artifact has a carbon-14 decay rate of 2. 75 dis/min·gc. If the rate of decay of a living organism is 15. 3 dis/min·gc, how old is this artifact? assume that t1/2 for carbon-14 is 5730 yr.

Answers

The age of the artifact is approximately 25313.5 years.

The age of an archaeological artifact can be determined by measuring the decay rate of carbon-14 present in the sample. The decay rate of carbon-14 follows an exponential decay equation given by:

[tex]N = N0 * e^(-kt)[/tex]

where N is the remaining amount of carbon-14 after time t, N0 is the initial amount of carbon-14, k is the decay constant, and t is the time elapsed since the death of the organism.

The decay constant (λ) is related to the half-life (t1/2) by the equation:

λ = ln(2) / t1/2

Substituting the given values, we can calculate the decay constant for carbon-14:

λ = ln(2) / t1/2 = ln(2) / 5730 = 0.000120968

Now, we can use the decay rate of carbon-14 for the artifact and the decay constant to calculate its age:

[tex]N = N0 * e^(-kt)[/tex]

[tex]2.75 dis/min·gc = N0 * e^(-0.000120968*t)[/tex]

Assuming that the decay rate of a living organism is 15.3 dis/min·gc, we can calculate the initial amount of carbon-14 present in the artifact:

[tex]15.3 dis/min·gc = N0 * e^(-0.000120968*0)[/tex]

N0 = 15.3 dis/min·gc

Substituting the values, we get:

[tex]2.75 dis/min·gc = 15.3 dis/min·gc * e^(-0.000120968t)\\0.180 = e^(-0.000120968t)[/tex]

Taking the natural logarithm of both sides, we get:

[tex]ln(0.180) = -0.000120968*t[/tex]

t = ln(0.180) / (-0.000120968)

Solving for t, we get:

t = 25313.5 years

Therefore, the age of the artifact is approximately 25313.5 years.

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Question 25 of 25
what is indicated by the prefixes cis-and trans-?
a. the size of the molecule
b. the location of the methyl group
c. the type of stereoisomer
d. the type of alkane

Answers

The prefixes cis- and trans- are used to describe stereoisomers, which are molecules that have the same molecular formula and connectivity but differ in their spatial arrangement. The correct answer is option c.

Specifically, they are used to describe molecules that have a carbon-carbon double bond or a ring structure.

Cis- and trans- indicate the type of stereoisomer, specifically geometric isomers. Cis- is used to describe molecules in which the two groups attached to the carbons of the double bond are on the same side, while trans- is used to describe molecules in which the two groups are on opposite sides of the double bond.

For example, in the molecule [tex]2-butene[/tex], there are two possible arrangements of the methyl ([tex]CH3[/tex]) and hydrogen (H) groups around the carbon-carbon double bond. If the two methyl groups are on the same side of the double bond, the molecule is called [tex]cis-2-butene[/tex]. If the two methyl groups are on opposite sides of the double bond, the molecule is called [tex]trans-2-butene[/tex].

The correct answer is option c.

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A sealed 10. 0L flask at 400K contains equimolar amounts of ethane and propane in gaseous form

Answers

The partial pressure of ethane and propane in the flask are both 16.42 atm.

The given information tells us that the flask is sealed, which means that no gas can enter or leave the flask. It also tells us that the volume of the flask is 10.0L and the temperature is 400K. Finally, it tells us that there are equimolar amounts of ethane and propane in the flask.

From this information, we can assume that the total pressure inside the flask is the sum of the partial pressures of ethane and propane. This is because the ideal gas law tells us that PV = nRT, where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is the temperature. Since the number of moles of each gas is the same, we can assume that their partial pressures are equal.

To find the partial pressures, we need to use the ideal gas law again. However, we need to know the total number of moles of gas in the flask. We can find this by using the fact that the amounts of ethane and propane are equimolar. Since the molar mass of ethane is 30 g/mol and the molar mass of propane is 44 g/mol, we know that the total mass of gas in the flask is 74 g. Dividing this by the sum of the molar masses (30+44=74 g/mol), we get the total number of moles, which is 1 mol.

Now we can use the ideal gas law to find the partial pressures. We'll use R = 0.08206 L·atm/(mol·K) as the gas constant. For ethane, we have:

PV = nRT
P_ethane * 10.0L = 0.5 mol * 0.08206 L·atm/(mol·K) * 400K
P_ethane = (0.5 mol * 0.08206 L·atm/(mol·K) * 400K) / 10.0L
P_ethane = 16.42 atm

For propane, we get the same result:

PV = nRT
P_propane * 10.0L = 0.5 mol * 0.08206 L·atm/(mol·K) * 400K
P_propane = (0.5 mol * 0.08206 L·atm/(mol·K) * 400K) / 10.0L
P_propane = 16.42 atm

Therefore, the partial pressure of ethane and propane in the flask are both 16.42 atm.

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Determine the concentration of 24.5 grams of cesium hydroxide in 100.0 mL of water.

Answers

Answer:

This data gives a relationship between amount of solute and volume of solution: 5.67 g KCl /. 100.0 mL. To find molarity we must convert grams KCl to moles hope this helps

Explanation:

12. Lab Analysis: You forgot to label your chemicals and do not know whether your unknown solution is strontium nitrate or magnesium nitrate. You use the solutions potassium carbonate and potassium sulfate in order to determine your mistake. unknown + potassium carbonate & unknown + potassium sulfate . What do you observe when the unknown solution is mixed with potassium carbonate? (Can you see the shape underneath?)

Answers

By observing whether a white precipitate forms or not, you can determine whether the unknown solution is strontium nitrate or magnesium nitrate.

What happens when unknown solution is mixed?

When the unknown solution is mixed with potassium carbonate, one of two things can happen, depending on whether the unknown solution is strontium nitrate or magnesium nitrate.

If the unknown solution is strontium nitrate, then when mixed with potassium carbonate, a white precipitate of strontium carbonate will be formed. The balanced chemical equation for this reaction is:

Sr(NO3)2 + K2CO3 -> SrCO3 + 2KNO3

If the unknown solution is magnesium nitrate, then when mixed with potassium carbonate, no visible reaction will occur. Magnesium carbonate is insoluble in water and does not precipitate out. The balanced chemical equation for this reaction is:

Mg(NO3)2 + K2CO3 -> no visible reaction

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What mass in grams of hydrogen gas is produced if 20.0 mol of zn are added to excess hydrochloric acid according to the equation



zn(s) +2hcl(aq) --> zncl₂(aq) + h₂(g)?

Answers

40.32 grams of hydrogen gas will be produced.

According to the balanced chemical equation:

1 mol of Zn reacts with 2 mol of HCl to produce 1 mol of H2

So if 20.0 mol of Zn is added to excess HCl, all the Zn will react to produce:

20.0 mol Zn × 1 mol H2 / 1 mol Zn = 20.0 mol H2

To calculate the mass of H2 produced, we need to use its molar mass, which is 2.016 g/mol:

Mass of H2 = number of moles of H2 × molar mass of H2

Mass of H2 = 20.0 mol × 2.016 g/mol

Mass of H2 = 40.32 g

Therefore, 40.32 grams of hydrogen gas will be produced.

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What quantity in moles of hydrogen gas at 150. 0 °C and 23. 3 atm would occupy a vessel of 8. 50 L?

Answer ASAP

Answers

The number of moles of hydrogen gas comes out to be 5.700 that can be calculated using the ideal gas equation.

Using ideal gas equation,

PV = nRT ......(1)

It is given that,

T = 150.0 °C

P = 23.3 atm

V = 8.50 L

To calculate the number of moles, substitute the known values in equation (1).

PV = nRT

23.3 atm x 8.50 L  =  n x 0.0821 L atm/mol/K x 423.15 K

n = (23.3 atm x 8.50 L) / (0.0821 L atm/mol/K x 423.15 K)

  =  198.05 / 34.74 mole

  = 5.700 moles

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4. A gas has a volume of 4 liters at 50 ℃. What will its volume be (in liters) at 100℃?

Answers

The volume of the gas at 100℃ would be 4.64 liters, assuming the pressure remains constant.

We can use the combined gas law, which relates the pressure, volume, and temperature of a gas. The combined gas law formula is: (P1 x V1) / T1 = (P2 x V2) / T2. Where P is the pressure, V is the volume, and T is the temperature. The subscripts 1 and 2 refer to the initial and final states of the gas, respectively.

In this case, we know that the initial volume (V1) is 4 liters and the initial temperature (T1) is 50 ℃. We want to find the final volume (V2) when the temperature is 100℃.To solve for V2, we can rearrange the formula as follows: V2 = (P1 x V1 x T2) / (P2 x T1).We don't know the pressure, but since the problem doesn't mention any changes in pressure, we can assume that it remains constant. Therefore, we can cancel out the P1 and P2 terms.

Plugging in the known values, we get: V2 = (4 L x 373 K) / (323 K) = 4.64 L (rounded to two decimal places)Therefore, the volume of the gas at 100℃ would be 4.64 liters, assuming the pressure remains constant.

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A 100 n force pulls a box horizontally across a floor for 2 m. how much was done by the force of gravity (which pulls straight down on the box)?
a. 50 j
b. 0 j
c. 100 j
d. 200 j

Answers

The net work done is 0 J. (B)

The force of gravity only affects the box vertically, not horizontally, so it doesn't do any work in this scenario. Only the applied force of 100 N pulling the box horizontally for 2 m does work.

This work can be calculated using the formula: Work = Force x Distance x Cos(theta), where theta is the angle between the force and the displacement.

In this case, since the force is applied horizontally, theta is 0, so the work done is simply: Work = 100 N x 2 m x Cos(0) = 200 J. Therefore, the correct answer is (b) 0 J for the work done by the force of gravity.(B)

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How many liters of iodine gas will be produced from the complete decomposition of 110 l of hydrogen iodine​

Answers

49.3 liters of iodine gas will be produced from the complete decomposition of 110 liters of hydrogen iodide gas at STP.

The balanced chemical equation for the decomposition of hydrogen iodide is:

2HI (g) → H₂ (g) + I₂ (g)

According to the equation, for every 2 moles of hydrogen iodide that decompose, 1 mole of iodine gas is produced. Using the ideal gas law, we can convert the volume of hydrogen iodide gas to moles:

n = PV/RT

where n is the number of moles, P is the pressure, V is the volume, R is the gas constant, and T is the temperature.

Assuming standard temperature and pressure (STP), which is 0°C and 1 atm, we have:

n(HI) = PV/RT = (1 atm) x (110 L) / (0.0821 L atm/K mol x 273 K) = 4.46 moles

Therefore, the number of moles of iodine gas produced is:

n(I2) = 4.46 moles HI / 2 moles I2 = 2.23 moles I2

Using the ideal gas law again, we can convert the number of moles of iodine gas to volume at STP:

V = nRT/P= (2.23 moles) x (0.0821 L atm/K mol) x (273 K) / (1 atm) = 49.3 L

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The complete question is:

How many liters of iodine gas will be produced from the complete decomposition of 110 L of hydrogen iodine​? 2HI (g) → H₂ (g) + I₂ (g)

The following reaction is done at stp:
n2 (g) + 3 h 2 (g) à 2 nh 3 (g)

if i.5 l of nitrogen gas are added to an excess of hydrogen gas, how many liters of nh3 gas will form?

Answers

At STP, 1.5 L of nitrogen gas will produce 3 L of NH₃ gas.

The balanced chemical equation for the reaction is N₂(g) + 3H₂(g) --> 2NH₃(g). According to the stoichiometry, 1 mole of nitrogen gas (N₂) reacts with 3 moles of hydrogen gas (H₂) to produce 2 moles of ammonia gas (NH₃). At STP, the volume of one mole of any gas is 22.4 L.

Step 1: Calculate the moles of N₂ in 1.5 L.
Moles of N₂ = (Volume of N₂ / 22.4 L/mol) = 1.5 L / 22.4 L/mol = 0.067 moles.

Step 2: Use the stoichiometry to find the moles of NH₃ formed.
Moles of NH₃ = 2 * Moles of N₂ = 2 * 0.067 moles = 0.134 moles.

Step 3: Calculate the volume of NH₃ formed at STP.
Volume of NH₃ = (Moles of NH₃ * 22.4 L/mol) = 0.134 moles * 22.4 L/mol = 3 L.

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