According to the second law of Faraday, the oxidation number of gold ions is +3.
What is the second law of Faraday?The second law of Faraday is also known as Faraday's law of electrolysis. According to this, the quantity of a substance that is deposited or released during electrolysis is directly proportional to the amount of electric charge that is transported through the electrolyte.
Given information,
Mass of silver (Ag) deposited = 0.732 g
Mass of gold (Au) deposited = 0.446 g
According to this law,
Weight of Ag/Equivalent weight of Ag = Weight of Au/Equivalent weight of Au
0.732/108 = 0.446/196.96 × valency
Since the equivalent weight of Ag is 108g and the equivalent weight of Au is 196.96g.
0.0067 = 0.0022 × valency
Valency = 0.0067/ 0.0022
Valency = 3
Therefore, the oxidation state of the gold ion (Au⁺³) is +3.
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How many atoms are in 32.10 g of He
Taking into account the definition of Avogadro's Number, 4.83×10²⁴ atoms of He are in 32.10 g of He.
Definition of molar massThe molar mass of substance is a property defined as the amount of mass that a substance contains in one mole.
Definition of Avogadro's NumberAvogadro's Number is called the number of particles that make up a substance (usually atoms or molecules) and that can be found in the amount of one mole.
Its value is 6.023×10²³ particles per mole.
Amount of moles of 32.10 g of HeThe molar mass of He is 4 g/mole. You can apply the following rule of three: If by definition of molar mass 4 grams of He are contained in 1 mole of He, 32.10 grams of He are contained in how many moles?
moles= (32.10 grams × 1 mole)÷ 4 grams
moles= 8.025 moles
The amount of moles of He in 32.19 grams is 8.025 moles.
Amount of atoms of 32.10 g of HeYou can apply the following rule of three: If by definition of Avogadro's Number 1 mole of He contains 6.023×10²³ atoms, 8.025 moles of He contains how many atoms?
amount of atoms of He= (8.025 moles × 6.023×10²³ atoms)÷ 1 mole
amount of atoms of He= 4.83×10²⁴ atoms
Finally, 4.83×10²⁴ atoms of He are present.
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a solution is made by dissolving 8424 mg of sodium chloride, nacl, in 0.1711 kg of water. what is the concentration in parts per billion?
The concentration of sodium chloride (NaCl) in the solution is 840,000 parts per billion (ppb).
To calculate this, divide the mass of sodium chloride (8424 mg) by the mass of water (0.1711 kg), then multiply the result by 1 billion (10^9).
To calculate the concentration of a solution, you must first determine the mass of the solute (NaCl in this case). The mass of the solute is given in the question as 8424 mg.
The mass of the solvent (water) is given as 0.1711 kg.
To calculate the concentration of the solution, divide the mass of the solute by the mass of the solvent, and then multiply the result by 1 billion (10^9).
In this example, 8424 mg divided by 0.1711 kg is equal to 49,336,297, which multiplied by 1 billion is equal to 49,336,297,000,000, or 840,000 parts per billion (ppb).
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what must be true for precipitation to occur? group of answer choices qsp > ksp qsp < ksp precipitation always occurs with sparingly soluble compounds none of these
For precipitation to occur, the value of Qsp (the ion product constant) should be greater than the solubility product constant (Ksp).
Precipitation is the conversion of a dissolved substance into a solid, which then settles out of a solution. Precipitation occurs when a liquid solution is cooled or heated, causing it to become super-saturated with one or more solutes. A solution's super-saturation means that it contains more of a solute than it can contain at equilibrium.
A tiny seed crystal of the solute is added to the solution to kick off the precipitation. The seed crystal provides a template for the rest of the solute to nucleate and form a solid. For precipitation to occur, the value of Qsp (the ion product constant) should be greater than the solubility product constant (Ksp). When Qsp is greater than Ksp, the solution is supersaturated and precipitates are formed. If Qsp is less than Ksp, the solution is unsaturated and no precipitation occurs.
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write a molecular equation for the gas evolution reaction that occurs when you mix aqueous hydrobromic acid and aqueous lithium sulfite.
The molecular equation for the gas evolution reaction between aqueous hydrobromic acid (HBr) and aqueous lithium sulfite (Li2SO3) is as follows: 2 HBr (aq) + [tex]Li_{2} So_{3}[/tex] (aq) → 2 LiBr (aq) + [tex]H_{2} So_{3}[/tex] (aq)
In this reaction, hydrobromic acid (HBr) reacts with lithium sulfite ([tex]Li_{2} So_{3}[/tex]) to form lithium bromide (LiBr) and sulfurous acid ([tex]H_{2} So_{3}[/tex]). The sulfurous acid is unstable and decomposes into water( [tex]H_{2o[/tex]) and sulfur dioxide gas ([tex]So_{2}[/tex]):
[tex]H_{2} So_{3}[/tex] (aq) → [tex]H_{2} 0[/tex]l) + [tex]So_{2}[/tex] (g)
The overall reaction is:
2 HBr (aq) + [tex]Li_{2} So_{3}[/tex] (aq) → 2 LiBr (aq) + [tex]H_{2} o[/tex] (l) + [tex]So_{2}[/tex] (g)
In this gas evolution reaction, the mixing of the two aqueous solutions results in the formation of a new compound, lithium bromide, which remains dissolved in the solution. The other product, sulfurous acid, decomposes into water and sulfur dioxide gas, which is released as bubbles in the solution. This release of gas is the characteristic feature of gas evolution reactions.
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what is the [hcoo-]/[hcooh] ratio in an acetate buffer at ph 4.50? (the pka for formic acid is 3.80.) [hcoo-]/[hcooh]
The ratio of [HCO₃⁻] to [HCO₂H] in an acetate buffer is 5.01.
The ratio of [HCO₃⁻] to [HCO₂H] (formic acid) in an acetate buffer at pH 4.50 is determined by the Henderson-Hasselbalch equation:
pH = pKa + log ([HCO₃⁻]/[HCO₂H]).
[HCO₃⁻]/[HCO₂H] = 10^(pH-pKa)
= 10^(4.50 - 3.80)
= 5.01
To further understand the buffering capacity of an acetate buffer, we must first understand the role of formic acid and bicarbonate in an acetate buffer.
Formic acid is an organic acid and bicarbonate is a salt of carbonic acid. Both of these species can form and break down as needed to maintain the pH of the buffer.
As the pH of the buffer is increased, the formic acid will break down, forming more bicarbonate.
On the other hand, as the pH of the buffer is decreased, more formic acid will form, resulting in fewer bicarbonate ions.
The buffering capacity of an acetate buffer is dependent on the relative concentrations of formic acid and bicarbonate ions, and these concentrations can vary depending on the pH of the buffer.
In summary, the ratio of [HCO₃⁻] to [HCO₂H] is found to be 5.01 in an acetate buffer at pH 4.50.
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which set of compounds is arranged in order of increasing magnitude of lattice energy? which set of compounds is arranged in order of increasing magnitude of lattice energy? csi < mgs < nacl mgs < nacl < csi nacl < csi < mgs csi < nacl < mgs
The set of compounds arranged in order of increasing magnitude of lattice energy is CsI < NaCl < MgS.
Lattice energy refers to the energy needed to dissociate a solid ionic crystal into gaseous ions. This energy is needed to overcome the electrostatic attraction between the ions of an ionic crystal. As a result, ionic crystals with higher charge and smaller size have higher lattice energies.
The lattice energies of the set of compounds CsI, NaCl, and MgS can be compared. The compound with the highest lattice energy is CsI because it has the highest charge and smallest size among the given compounds. Thus, the order of lattice energies would be:
CsI < NaCl < MgS
In summary, in order of increasing magnitude of lattice energy, the set of compounds can be arranged as CsI < NaCl < MgS.
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a) select the best set of reagents for the transformation. an alkene bonded to a tert butyl group and three hydrogens is transformed to a tert butyl group bonded to c h 2 c h 2 o h. the best reagents are:
To transform an alkene bonded to a tert-butyl group and three hydrogens to a tert-butyl group bonded to CH2CH2OH, the best reagents are H2SO4 and H2O.
H2SO4 is used to protonate the double bond and form a carbocation, which can then undergo nucleophilic attack by water to form the final product. This reaction is known as hydration of alkenes.To perform the transformation, the alkene is first protonated with H2SO4 to form a carbocation intermediate.
Water acts as a nucleophile and attacks the carbocation to form the alcohol product. This reaction is shown below:Thus, the final product formed is tert-butyl group bonded to CH2CH2OH.Another way to perform this transformation is by using oxymercuration-demercuration.
In this reaction, the alkene is first treated with mercuric acetate and water to form a cyclic intermediate.
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at a party, 6.00 kg of ice at -5.00oc is added to a cooler holding 30.0 liters of water at 20.0oc. what is the temperature of the water when it comes to equilibrium?
The temperature of the water when it comes to equilibrium is 69.48°C.
Firstly, the heat lost by ice is equal to the heat gained by water. This is because the process of melting of ice requires heat energy, and this heat energy will be absorbed from the water present in the cooler.
Let us find out the heat lost by ice. The specific heat of ice is 2.05 J/g·°C, and the heat of fusion of ice is 334 J/g. Heat lost by ice can be given as:
q1 = mass of ice × specific heat of ice × (final temperature - initial temperature) + mass of ice × heat of fusion
q1 = 6.00 × 10^3 g × 2.05 J/g·°C × (0 - (-5)) + 6.00 × 10^3 g × 334 J/g
= 6.00 × 10^3 g × 10.25 J/g·°C + 2.00 × 10^6 J
= 6.15 × 10^4 J + 2.00 × 10^6 J
= 2.06 × 10^6 J
Heat gained by water can be given as:
q2 = mass of water × specific heat of water × (final temperature - initial temperature)
q2 = 30.0 kg × 4.18 J/g·°C × (final temperature - 20.0°C) = 1254 J/kg·°C × (final temperature - 20.0°C)
Since q1 = q2,
we have: 6.15 × 10^4 J + 2.00 × 10^6 J
= 1254 J/kg·°C × (final temperature - 20.0°C)6.21 × 10^4 J
= 1254 J/kg·°C × (final temperature - 20.0°C)
final temperature - 20.0°C = 6.21 × 10^4 J / (1254 J/kg·°C)
final temperature - 20.0°C = 49.48°C
final temperature = 49.48°C + 20.0°C = 69.48°C
Hence, the temperature of the water when it comes to equilibrium is 69.48°C.
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an atomic transition produces a photon with a wavelength of 410 nm. what is the energy of this photon in ev?
The energy of a photon with a wavelength of 410 nm is equal to 3.03 eV.
To calculate this, you can use the formula E = hc/λ, where h is Planck's constant, c is the speed of light, and λ is the wavelength. Plugging in the values, you get E = (6.626x10⁻³⁴J·s)(3.0x10⁸m/s)/(410x10⁻⁹m) = 4.839 × 10-19 J = 3.03 eV.
An atomic transition produces a photon with a wavelength of 410 nm. The energy of this photon is 3.03 eV.
The following formula can be used to calculate the energy of a photon.
Energy = Planck's constant x (speed of light/wavelength).
Here, Planck's constant is (h) = 6.626 × 10⁻³⁴ J s. The speed of light is (c) = 3 × 10⁸m/s (in a vacuum). The wavelength of the photon is (λ) = 410 nm.
So, let's first convert the wavelength to meters (1 nm =10⁻⁹ m).
So, 410 nm = 410 × 10⁻⁹ m = 4.10 × [tex]10^{-7}[/tex]m. Now, we can calculate the energy of the photon using the formula.
Energy = h x (c/λ)
Energy = 6.626 × 10⁻³⁴ J s x (3 × 10⁸ m/s / 4.10 × [tex]10^{-7}[/tex] m)
Energy = 4.839 × [tex]10^{-19}[/tex] J (joules)
One electron volt is equal to 1.6 × [tex]10^{-19}[/tex]J.
So, we can convert the energy from joules to electron volts.
Energy (in eV) = Energy (in J) / (1.6 × [tex]10^{-19}[/tex]J/eV)
Energy (in eV) = 4.839 × [tex]10^{-19}[/tex]J / (1.6 × [tex]10^{-19}[/tex]J/eV)
Energy (in eV) = 3.03 eV
Therefore, the energy of the photon is 3.03 eV.
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how the temperature and vapor pressure are related knowing the enthalpy of vaporization at the boiling temperature
Describe how finding the formula differs between Ionic and Covalent compounds.
Answer:
covalent compounds
CsF
Nao
CHN
PCI
CAO
NH
WO
lonic compounds
CS
CdBr
N
SOS
how can you tell by looking at a graph which reaction (forward or reverse) is favored (i.e. faster when the concentrations of reactants and products are equal)?
The forward reaction is favored when the graph shows that the reactant concentration is higher than the product concentration.
To determine which reaction is favored, examine the graph and look at the concentrations of reactants and products at equilibrium. If the reactant concentration is higher, the forward reaction is favored. Conversely, if the product concentration is higher, the reverse reaction is favored.
A graph can help you visualize the reactants and products of a reaction at equilibrium. The y-axis of the graph typically indicates the concentration of the reactants or products, and the x-axis of the graph indicates the reaction rate.
At equilibrium, the reaction rate is 0, meaning that the reactants and products are neither increasing nor decreasing in concentration. By looking at the concentrations of the reactants and products at equilibrium on the graph, you can determine which reaction is favored.
If the reactant concentration is higher than the product concentration, then the forward reaction is favored. This means that the forward reaction occurs more quickly than the reverse reaction when the concentrations of the reactants and products are equal.
Conversely, if the product concentration is higher than the reactant concentration, then the reverse reaction is favored.
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Which of these is not a component of Rutherford’s model of the atom?
The Rutherford's model lacks an atom's electrical structure and electromagnetic radiation.
What elements make up Rutherford's atomic model?According to the idea, an atom has a tiny, compact, positively charged center called a nucleus, where almost all of the mass is concentrated, while light, negatively charged particles called Like planets circle the Sun, electrons also travel a great distance around it. Rutherford discovered that an atom's interior is mostly empty.
What does Rutherford's conclusion leave out?Rutherford's alpha scattering experiment did not come to any conclusions on how quickly positively charged particles travel. The nucleus, or core, of the atom contains the positively charged particles.
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in a 55.0-g aqueous solution of methanol, ch4o, the mole fraction of methanol is 0.100. what is the mass of each component?
The mass of methanol in a 55.0-g aqueous solution of methanol, CH4O, is 5.53 g and the mass of water is 27.91 g. when the mole fraction of methanol is 0.100.
The mass of each component in a 55.0-g aqueous solution of methanol, CH4O, can be found by using the mole fraction of methanol (0.100).
First, calculate the total number of moles of the solution:
55.0 g x (1 mol/32.04 g) = 1.72 moles
Then, calculate the number of moles of methanol:
1.72 moles x (0.100 mole fraction) = 0.172 moles
Finally, calculate the mass of each component:
Methanol mass: 0.172 moles x (32.04 g/mol) = 5.53 g
Water mass: 1.72 moles - 0.172 moles = 1.55 moles x (18.02 g/mol) = 27.91 g
Therefore, the mass of methanol in a 55.0-g aqueous solution of methanol, CH4O, is 5.53 g and the mass of water is 27.91 g.
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Suppose that an ion has an absorption line at a rest wavelength of 1000.0 nm. this line is shifted to 1000.1 nm in the spectrum of a star. how fast is the star moving? hint: the doppler shift formula is (vrad/c)
The star is moving by a velocity of 3 *10^{5}.
The formula for the Doppler shift is given by
f2/f1 = (c-v)/c,
where c is the speed of light, v is the velocity of the moving object, and f1 and f2 are the emitted and received frequencies of light, respectively.
The Doppler effect occurs when the light source and the observer are moving relative to one another, giving the impression that the light's frequency has changed.
The Doppler effect alters the frequency of light from a moving source, shifting it either to the red or blue. This resembles (but does not necessarily mimic) the behavior of other types of waves, such as sound waves.
The star is moving away from the observer because the wavelength of the spectral line has shifted to a longer wavelength.
doppler shift
Thus, the velocity is given by the formula
:v/c = (Δλ/λ)
where is the rest wavelength and is the change in wavelength.
v/c = (Δλ/λ)v/c = (1000.1 - 1000.0)/1000.0v/c = 0.0001/1000.
0v/c = 1e-7v = (1e-7) × c = 300 × 1e-7 = 3e-5
The star is moving away from the observer at a velocity of[tex]3 *10^{5}[/tex]m/s.
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which isotope, when bombarded with nitrogen-15, yields four neutrons and the artificial isotope dubnium-260?
The isotope that yields four neutrons and the artificial isotope dubnium-260 when bombarded with nitrogen-15 is curium-244.
Curium-244 is a transuranic element of the actinide series. When bombarded with nitrogen-15, a nucleus of curium-244 splits into two smaller nuclei, releasing four neutrons in the process.
This process is called nuclear fission. The nucleus of nitrogen-15 is then combined with the two smaller nuclei to form dubnium-260, which is an artificially produced isotope.
Nuclear fission of curium-244 is a common process used in nuclear power plants. In nuclear power plants, uranium-235 is bombarded with neutrons, causing a chain reaction that produces energy and more neutrons.
The neutrons then bombard other uranium-235 nuclei, continuing the process. By bombarding curium-244 with nitrogen-15, a similar chain reaction is created that produces dubnium-260.
The production of dubnium-260 through nuclear fission of curium-244 can be used for various scientific and industrial purposes.
It can be used in the production of nuclear weapons, nuclear fuel, medical isotopes, and in other research activities.
In addition, it can be used as a catalyst for chemical reactions, to produce high energy radiation for sterilization, and for other industrial processes.
In conclusion, curium-244 yields four neutrons and the artificial isotope dubnium-260 when bombarded with nitrogen-15.
This process, known as nuclear fission, can be used in a variety of scientific and industrial applications.
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explain how you used your titration data to determine the volume of naoh used to reach the equivalence point of your titration. comment on the extent of agreement with the predicted volume you calculated above.g
To determine the volume of NaOH used to reach the equivalence point of the titration using the titration data, we need to find the point where the acid and base are neutralized.
At this point, the moles of acid and base are equal, and this is called the equivalence point.To find the volume of NaOH used at the equivalence point, we can use the following
Steps:1. Plot the titration data on a graph of pH versus volume of NaOH added.
Steps:2. Identify the point where the pH changes abruptly. This is the equivalence point.
Steps:3. Determine the volume of NaOH added at the equivalence point by reading the volume from the graph.
Steps:4. Compare the volume of NaOH used at the equivalence point of the titration with the predicted volume calculated above.The extent of agreement with the predicted volume can be assessed by calculating the percent error.
The percent error is calculated using the formula:
Percent error = [(experimental value - theoretical value) / theoretical value] x 100
If the percent error is small, then the agreement is good. If the percent error is large, then there is a significant difference between the predicted and experimental values.
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starting with a 1.00 l of a buffer that is 0.700 m hf and 0.553 m naf, calculate the ph after the addition of 0.100 mol naoh. ka (hf) 7.1 x 10-4
The pH after the addition of 0.100 mol NaOH to 1.00 L of a buffer that is 0.700 M HF and 0.553 M NaF. The pH is 7.031.
To calculate the pH after the addition of 0.100 mol NaOH to 1.00 L of a buffer that is 0.700 M HF and 0.553 M NaF, we can use the Henderson-Hasselbalch equation.
The Henderson-Hasselbalch equation is: pH = pKa + log ([A-]/[HA])
Where [A-] is the concentration of the anion (in this case, NaF) and [HA] is the concentration of the acid (in this case, HF).
pKa for HF is 7.1 x 10-4
Before we add the 0.100 mol NaOH, the pH of the buffer is:
pH = 7.1 x 10-4 + log ([0.553 M NaF]/[0.700 M HF])
= 7.1 x 10-4 + log(0.787)
= 7.1 x 10-4 + -0.103
= 6.997
Now, let's calculate the concentration of NaOH after we add 0.100 mol of it to the buffer. We know that 1 mole of NaOH will produce 1 mole of OH- ions, so the concentration of OH- ions is 0.100 M.
Since the buffer already contains HF and NaF, the total concentration of anions is 0.653 M.
We can now calculate the new pH using the Henderson-Hasselbalch equation:
pH = 7.1 x 10-4 + log([0.653 M anions]/[0.700 M HF])
= 7.1 x 10-4 + log(0.933)
= 7.1 x 10-4 + -0.069
= 7.031
Therefore, the pH of the buffer after the addition of 0.100 mol NaOH is 7.031.
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2.37-l container is filled with 186 g argon. (a) if the pressure is 10.0 atm, what is the temperature? webassign will check your answer for the correct number of significant figures. k (b) if the temperature is 225 k, what is the pressure?
(a) If the pressure is 10.0 atm, the temperature is 62.0 K.
(b) if the temperature is 225 k, the pressure is 36.3 atm.
a) In order to calculate the temperature, we need to use the ideal gas law, PV = nRT, where P is the pressure, V is the volume of the container, n is the number of moles of argon, R is the ideal gas constant, and T is the temperature.
We can calculate the number of moles, n, by using the molar mass of argon, which is 39.948 g/mol.
We have n = 186 g / 39.948 g/mol = 4.656 mol.
So we can plug in our values and solve for T:
T = (10.0 atm)(2.37 L) / (4.666 mol)(0.08206 L·atm/mol·K) = 62.0 K.
b) To calculate the pressure, we can again use the ideal gas law, PV = nRT. We know the values of n, R, and T from the previous question.
Since the volume of the container is given, we can plug in these values to solve for P:
P = (4.666 mol)(0.08206 L·atm/mol·K)(225 K) / 2.37 L = 36.3 atm.
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Answer with the Matching-match the letter with the correct item
Double replacement or metathesis reaction involves the exchange of ions between two compounds.
What are the types of reaction?Combination or synthesis reaction is a type of reaction that involves two or more reactants combining to form a single product. The general format is A + B → AB.
Decomposition reaction involves a single reactant breaking down into two or more products. The general format is AB → A + B.
The matching of the letters are;
1 - C
2 - H
3 - E
4 - F
5 - A
6 - B
7 - I
8 - J
9 - G
10 - D
1) False
2) False
3) True
4) False
5) True
6) True
7) True
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Calculate the molality of a solution that contain 90. 0g of benzoic acid in 350 ml of water
The molality of a solution that contain 90. 0g of benzoic acid in 350 ml of water is 2.102 mole / kg.
The molarity of a solution is defined as the number of moles of solute dissolved in one liter of solution. Molarity can be expressed as the ratio of a solvent's moles to a solution's total liters. Both the solute and the solvent are part of the solution in calculating the molarity. It is the ratio of the solute moles to the solvent kilograms.
Molarity = Number of moles of solute Volume of solution in liter.
moles of C6H5COOH = 90.0 g / 122.12g/mole
= 0.736 mole
Now we have to calculate the mass of water.
= (350 ml) (1 g/ml) * 1L/ 1000ml
= 0.350 kg
Molarity = 0.736 mole/ 0.350 kg
= 2.102 mole / kg.
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What does Einstein's famous equation say that all matter is?
concentrated supernovas that have condensed into dwarfs
concentrated energy that has condensed into the atoms
concentrated atoms that have condensed into protons
concentrated nebulas that have been condensed into red giants
Einstein's famous equation say that all matter is option B. concentrated energy that has condensed into the atoms.
What is Einstein's famous equation?When combined with the speed of light, Einstein's famous equation E=mc2 demonstrates mathematically that energy and matter are one and the same. m stands for mass, c for the speed of light, and E stands for energy. This equation states that all matter is simply concentrated energy that has condensed into atoms.
Einstein's famous equation is E=mc², which expresses the relationship between mass (m) and energy (E), and the constant speed of light (c) in a vacuum. This equation shows that mass and energy are interchangeable, and that a small amount of mass can be converted into a large amount of energy, as demonstrated in nuclear reactions.
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calculate the theoretical yield for methyl orange (consider sulfanilic acid as your limiting reagent in the diazotization reaction and what the theoretical yield of diazotized sulfanilic acid would be)
The theoretical yield of diazotized sulfanilic acid can be calculated by multiplying the molar ratio of sulfanilic acid (the limiting reagent) to methyl orange by the molar mass of sulfanilic acid. The molar ratio of sulfanilic acid to methyl orange is 1:1, and the molar mass of sulfanilic acid is 243.26 g/mol. Therefore, the theoretical yield of diazotized sulfanilic acid is 243.26 g/mol.
To calculate the theoretical yield of methyl orange, we need to know the molar ratio of methyl orange to diazotized sulfanilic acid. This is determined by the reaction conditions, and typically the molar ratio of methyl orange to diazotized sulfanilic acid is 3:2. This means that for every 3 moles of methyl orange, 2 moles of diazotized sulfanilic acid are required. The molar mass of methyl orange is 384.2 g/mol. Multiplying the molar ratio (3:2) by the molar mass of methyl orange yields a theoretical yield of 576.3 g/mol.
In conclusion, the theoretical yield of diazotized sulfanilic acid is 243.26 g/mol, and the theoretical yield of methyl orange is 576.3 g/mol.
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suppose 0.850 l of 0.400 m h2so4 is mixed with 0.800 l of 0.250 m koh . what concentration of sulfuric acid remains after neutralization?
The concentration of sulfuric acid that remains after neutralization is 0.056 M.
To find out what concentration of sulfuric acid remains after neutralization, you will need to use the balanced equation for the reaction:
H2SO4 + 2KOH → K2SO4 + 2H2O
First, you will need to determine the moles of each reactant in the solution.
Moles can be determined using the formula:
moles = concentration x volume
In this case:
moles of H2SO4 = 0.850 L x 0.400 M = 0.34 mol
moles of KOH = 0.800 L x 0.250 M = 0.2 mol
Since the reaction is a 1:2 ratio, you will need to determine which reactant is limiting the reaction.
To do this, compare the mole ratios of the reactants:
0.34 mol H2SO4 : 0.2 mol KOH = 1.7 : 1
Since the ratio of H2SO4 to KOH is greater than 1:2, KOH is the limiting reactant. Therefore, all of the KOH is used up in the reaction, leaving some H2SO4 unreacted.
To find the amount of H2SO4 remaining, you will need to use the mole ratio of H2SO4 to KOH.
Since 2 moles of KOH react with 1 mole of H2SO4, you can use the mole ratio:
0.2 mol KOH x (1 mol H2SO4 / 2 mol KOH) = 0.1 mol H2SO4 remaining
Finally, you can determine the concentration of the H2SO4 remaining:
concentration = moles / volume
concentration = 0.1 mol / (0.850 L + 0.800 L)
concentration = 0.056 M
Therefore, the concentration of sulfuric acid that remains after neutralization is 0.056 M.
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How many molecules are there in 4.00 moles of glucose, c6h12o6
Answer: There are 2.41 * 102 molecules in 4.00 moles of glucose.
Explanation: Glucose is C6H12O6, and Avogadro's Number (named for Amadeo Carlo Avogadro 1776 – 1856) tells us that 1 mole contains 6.022 x 10^23 molecules. So, 4.0 moles contains 4 x 6.022 x 10^23 = 2.409 x 10^24 molecules.
an electrolyte solution . . . question 6 options: a) contains dissolved metals. b) contains non-polar molecules. c) is aqueous. d) contains ions. e) has free electrons in solution.
An electrolyte solution is one that contains ions. The correct option is d.
An electrolyte solution is one that can conduct an electric current. It contains charged particles or ions, which are what allow the solution to conduct an electric current. The following options can be eliminated as incorrect because they don't define electrolyte solution: a) contains dissolved metals b) contains non-polar molecules e) has free electrons in solution. Therefore, the correct option is (d) contains ions.Learn more about electrolyte solutions: https://brainly.com/question/14654936
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For another researcher's data the starting mass of apparatus + solid was 113.249 g. After the reaction was complete the apparatus was reweighed. The resulting mass was 113.276 g. Which of the following could have caused the mass gain?
Select all that apply
Group of answer choices
The apparatus had a gas leak and room air could enter the apparatus.
The apparatus picked up extra water droplets between weighings
They forgot to weigh the mass of the gas-generating solid before the reaction.
Matter was created in the reaction.
The mass gain that happened after the reaction could have been caused due to the matter was created in the reaction .
What is mass gain?
In physics, mass gain refers to an increase in mass in a chemical or nuclear reaction. It is the difference between the mass of the reactants and the mass of the products after a chemical reaction has occurred.
What happened in the given problem?
According to the given problem, the starting mass of the apparatus and solid was 113.249 g. After the reaction was complete, the apparatus was reweighed. The resulting mass was 113.276 g. The problem asks which of the following could have caused the mass gain.
The mass gain could have been caused by the following:
They forgot to weigh the mass of the gas-generating solid before the reaction
The apparatus picked up extra water droplets between weighing's.
Matter was created in the reaction.
The apparatus picked up extra water droplets between weighings, but they forgot to weigh the mass of the gas-generating solid before the reaction, and matter was created in the reaction.
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calculate the volume in ml of 100% ethanol required to make 900 ml of 60% (v/v) solution ethanol in water.
The volume of 100% ethanol required to make 900 ml of 60% (v/v) solution ethanol in water is 540 ml.
To calculate the volume in ml of 100% ethanol required to make 900 ml of 60% (v/v) solution ethanol in water, you will need the following formula:
C1V1 = C2V2
Where C1 is the initial concentration of the solution (in this case, 100%), V1 is the initial volume of the solution (unknown), C2 is the final concentration of the solution (in this case, 60%), and V2 is the final volume of the solution (900 ml).
To solve for V1, we can rearrange the formula as follows:
V1 = (C2V2) / C1
Plugging in the values, we get:
V1 = (0.60 * 900) / 1.00
V1 = 540 ml
Therefore, you will need 540 ml of 100% ethanol to make 900 ml of a 60% (v/v) solution of ethanol in water.
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a 24.6 ml sample of 0.389 m ethylamine, c2h5nh2, is titrated with 0.325 m hydroiodic acid. at the equivalence point, the ph is .
At the equivalence point of a titration between 24.6 mL of 0.389 M ethylamine, C2H5NH2, and 0.325 M hydroiodic acid, the pH is 0.
At the equivalence point of a titration between 24.6 mL of 0.389 M ethylamine, C2H5NH2, and 0.325 M hydroiodic acid, the pH is 0. The equation for the reaction is:
C2H5NH2 + HI → C2H5NH3+ + I-
The number of moles of hydroiodic acid, HI, needed to reach the equivalence point is equal to the number of moles of ethylamine, C2H5NH2. To calculate this, use the following equation:
Moles of HI = Moles of C2H5NH2
Volume of C2H5NH2 x Molarity of C2H5NH2 = Volume of HI x Molarity of HI
24.6 mL x 0.389 M = Volume of HI x 0.325 M
Volume of HI = 24.6 mL x 0.389 M / 0.325 M
Volume of HI = 30.53 mL
At the equivalence point, the pH of the solution is 0.
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under standard conditions (298 k and 1 atm), which statement is true? refer to the constants for thermodynamic properties under standard conditions. a. diamond converts to graphite spontaneously b. graphite converts to diamond spontaneously c. none of the above
Under standard conditions (298 K and 1 atm), neither statement is true.
Diamond and graphite are both forms of carbon and are in a state of equilibrium under standard conditions. This means that neither diamond nor graphite will spontaneously convert to the other form.
Therefore, the correct answer is option (c): none of the above.
For more questions like thermodynamic visit the link below:
The thermodynamic equilibrium constant In a chemical equilibrium, K is the appropriate quotient of species activities. Under normal temperatures and pressures, an activity cannot be very many orders of magnitude more than 1.
The definition of thermodynamic properties is "system characteristics that can specify the state of the system." Certain constants, like R, are not attributes since they do not describe the state of a system.
Thermodynamics states that the conversion of diamond to graphite occurs spontaneously and is favourable. Yet, this reaction moves extremely slowly because kinetics, not thermodynamics, regulates it. As a result, diamond is thermodynamically unstable but kinetically stable.
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