Answer:
NaClO4
Explanation:
The empirical formula for a compound with 18.8% Na, 29.0% Cl, and 52.3% O is NaClO4. This means that the compound contains one atom of sodium, one atom of chlorine, and four atoms of oxygen.
A 0.52 kg bird flying at an altitude of 550 meters.
The bird's potential energy is 2,802.8 J.
The potential energy of an object is the energy it has due to its position in a gravitational field. The formula for potential energy is as follows:
PE = m × g × h
Where PE is the potential energy, m is the mass of the object, g is the acceleration due to gravity, and h is the height of the object.
In this case, the mass of the bird is 0.52 kg, the acceleration due to gravity is 9.8 m/s², and the height is 550 meters. Plugging these values into the formula, we get:
PE = 0.52 kg × 9.8 m/s² × 550 m
PE = 2,802.8 J
Therefore, the potential energy of the bird is 2,802.8 joules.
Your question seems incomplete. The completed version should be as follows:
A 0.52 kg bird flying at an altitude of 550 meters. What is the bird's potential energy?
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What is the volume in liters of 5.50 moles of CO2 at standard
temperature and pressure (STP)?
The volume of 5.50 moles of CO2 at STP is 120.02 liters.
What is standard temperature and pressure?To calculate the volume of 5.50 moles of CO2 at standard temperature and pressure (STP), we need to use the ideal gas law:
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.
At STP, the pressure is 1 atmosphere (atm) and the temperature is 273.15 Kelvin (0 degrees Celsius). The gas constant is 0.08206 L•atm/mol•K.
So we can plug in the values and solve for V:
V = nRT/P = (5.50 mol)(0.08206 L•atm/mol•K)(273.15 K)/(1 atm) = 120.02 L
Therefore, the volume of 5.50 moles of CO2 at STP is 120.02 liters.
Standard temperature and pressure (STP) is a set of standard conditions used for measuring and comparing the properties of gases. STP is defined as a temperature of 273.15 Kelvin (0 degrees Celsius) and a pressure of 1 atmosphere (atm). These standard conditions allow scientists to compare the behavior of gases under the same set of conditions, making it easier to compare and contrast the properties of different gases.
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The number of moles is 123.2 moles
How can you find the volume form moles?To find the volume of a substance from its number of moles, you will need to know its molar volume, which is the volume occupied by one mole of a substance. The molar volume can vary depending on the temperature and pressure, so you will need to specify these conditions.
The formula to calculate the volume of a substance from its number of moles is:
Volume = Number of moles x Molar volume
We know that;
1 mole occupies 22.4 L
5.5 moles occupies 5.5 moles * 22.4 L/1 mole
= 123.2 moles
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the angle between the bonds between the carbon atom and hydrogen atoms located at vertices and___, is given by the expression
Answer:
if u are talking Abt H2O then the shape is vent shaped and angle between both oxygen atoms is 104.5°
Explanation:
I hope the image helps
Cite the evidence that indicates that both physical and chemical changes occur when a copper wire is heated in a Bunsen burner flame. (More than one answer may be correct.) The original appearance was not restored when the wire cooled, instead a new substance appears. No change in the composition of the copper wire could be detected The original appearance was restored when the wire cooled. The wire changed color during the heating
Answer:
When a copper wire is heated in a Bunsen burner flame, the copper's color changes to become a glowing red. It won't be restored to its original appearance after cooling. Instead, it becomes a black material called copper (II) oxide, which is 79.9% copper and 20.1% oxygen (was 100% copper before it was burned). This chemical change occurred as the oxygen in the air combined with the copper during the heating process.
Explanation:
The evidence that indicates that both physical and chemical changes occur when a copper wire is heated in a Bunsen burner flame are:
The original appearance was not restored when the wire cooled, instead a new substance appears.
The wire changed color during the heating.
What is a physical change ?A physical change is a type of change in which the form, shape, size, or state of matter of a substance is altered, but the substance itself remains the same chemically. In other words, the composition of the substance does not change.
Examples of physical changes include changes of state (such as melting, freezing, or vaporization), changes in shape or size (such as crushing or cutting), and changes in appearance (such as changing color or texture).
A chemical change involves breaking or making of chemical bonds. This include formation of a new compounds and some color changes. Therefore,
The original appearance was not restored when the wire cooled, instead a new substance appears, states a physical change and
The wire changed color during the heating indicates a chemical change.
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How did your measured freezing point compare to your theoretical freezing point? Hint: calculate the % error.
GEOLOGY
1. If a rock begins with 4000 atoms of a radioactive isotope, how many would remain
A .after one half-life?
B. after two half-lives?
C. after three half-lives?
D. after four half-lives?
2. If an isotope has a half-life of twenty million years, and there is 25% of the isotope remaining in a rock, how old is the rock?
A. 10 million years
B. 20 million years
C. 40 million years
D. 60 million years
3. A scientist radiometrically dates 3 different rocks using 3 separate decay series.
Rock A is dated using isotope A (half-life = 50 years)
Rock B is dated using isotope B (half-life = 100 years),
Rock C is dated using isotope C (half-life = 1000 years).
If each rock contains 50% of their measured radioactive element and 50% of its corresponding daughter element, which rock is oldest?
A. Rock A
B. Rock B
C. Rock C
D. Impossible to tell
4. An ArcheologistLinks to an external site. finds some cotton cloth at a burial site and wants to determine the age of the remains. Which isotopic system should they use?
A. Carbon-14
B. Uranium
. Potassium-Argon
5. The Archeologist determines that there is 16.7% of the parent isotope remaining in the cloth sample. How old is the burial site? Hint: you can find the length of the half-life in the reading above.
A. 13,559 years
B. 14,798 years
C. 16,743 years
D. 1.66 billion years
E. 1.81 billion years
F. 2.05 billion
6. A geologist is trying to date a sequence of sedimentary rocks with abundant fossils and sandstones. Within the sequence is a distinctive clay layer that, under closer inspection, turns out to be fine-grained volcanic ash. Which of the following is the best way to obtain an absolute date for the sequence of rocks?
A. Carbon date the fossils
B. Potassium-Argon date the sands
C. Uranium date the Zircons in the ash
D. Identify the index fossils
7. The geologist determines there is 78.3% of the parent remaining in the sample that they examine. How old is the sequence of rocks? Hint: you can find the length of the half-life in the reading above.
A. 187.5 million years
B. 247.8 million years
C. 390.7 million years
D. 2.504 billion years
E. 1.588 billion years
F. 1.202 billion years
A rock that begins with 4000 atoms of a radioactive isotope would have the following remain;
A. After one half-life, 2000 atoms would remain.
B. After two half-lives, 1000 atoms would remain.
C. After three half-lives, 500 atoms would remain.
D. After four half-lives, 250 atoms would remain.
If an isotope has a half-life of twenty million years, and there is 25% of the isotope remaining in a rock, how old is the rock?If 25% of the isotope remains, that means 75% has decayed. Since each half-life represents 20 million years, two half-lives (40 million years) would result in 25% of the original isotope remaining, and therefore four half-lives (80 million years) would result in 6.25% of the original isotope remaining. Therefore, the rock must be older than 40 million years but younger than 80 million years. Since the answer choices only include 40 million years and 60 million years, the closest answer is C, 40 million years.
Each rock has decayed 50% of its radioactive element, which means they have all undergone the same amount of decay. However, since each isotope has a different half-life, the amount of time it takes to undergo 50% decay will be different. The rock dated with isotope C has the longest half-life, and therefore has undergone the least amount of decay and must be the oldest.
Carbon-14 dating is the best choice for dating organic materials, such as cotton cloth.
Using the half-life of Carbon-14 (5730 years), we can calculate the age of the burial site using the formula t = (ln(0.167) / ln(0.5)) x 5730. This results in an age of approximately 14,798 years.
The best way to obtain an absolute date for the sequence of rocks would be to date the volcanic ash layer using a radiometric dating method such as Uranium dating, which would provide an age for the time at which the ash was deposited. This age could then be used to bracket the ages of the sedimentary rocks above and below the ash layer.
Conclusively, Using the half-life of the parent isotope, we can calculate the age of the sequence of rocks using the formula t = (ln(0.783) / ln(0.5)) x length of the half-life. Since we don't know the specific isotope being used, we can't calculate the exact age, but the closest answer choice is E, 1.588 billion years.
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The periodic table entry for Silicon is shown below. Assuming the atom is neutral, can you make the assumption that there are 14 neutrons in all Si atoms?
What is the percent by mass of hydrogen in NH3 ? (NH3 = 17.0 grams/mol) 17.6% 82.4% 21.4% 5.9%
The percent by mass of hydrogen in NH3 is 82.4%.
How many moles of hydrogen are present in 34 grams of NH3?To find out the number of moles of hydrogen in 34 grams of NH3, first we need to find the number of moles of NH3 which can be calculated by dividing 34 grams by the molar mass of NH3 (17.0 grams/mol). Therefore, the number of moles of NH3 is 2 moles. As NH3 contains 3 moles of hydrogen per mole, the number of moles of hydrogen in 34 grams of NH3 is 2 x 3 = 6 moles.
Molecular mass of NH3 = 1 x atomic mass of N + 3 x atomic mass of H
= 1 x 14.01 + 3 x 1.01
= 17.03 g/mol
Mass percent of hydrogen in NH3 = (3 x atomic mass of H) / molecular mass of NH3 x 100%
= (3 x 1.01 g/mol) / 17.03 g/mol x 100%
= 82.4%
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For a helium atom in a one-dimensional box calculate the value of the quantum number of the energy level for which the energy is equal to 3/2kT at 25 degrees C (a) for a box 1 nm long, (b) for a box 10^-6 m long, and (c) for a box 10^-2 m long.Please show answer with steps!
As the quantum numbers depend on the number of energy levels in an atom there are 2 quantum numbers for helium owing to it's 2 electrons.
What is an energy level?Electrons present in an atom revolve in different orbits which are stationary states and are also called as energy levels. The energy levels are numbered as integers which are also called as principal quantum numbers.
Energy of the stationary state is given as E= -R
1/n² where R
is the Rydberg's constant. When an electron is excited, and it moves from lower to higher energy levels there is absorption of energy, while when it moves from higher energy level to lower energy level it radiates or gives out energy in the form of radiation.
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How many molecules are in 38.8g of C4H8O2?
Answer:
14
Explanation:
Wind has less energy as it slows, and _____ of sediment occurs.
As the wind slows, silt is deposited because the wind has less energy.
When a stream slows down, what happens to the sediment?Deposition in rivers and streams. A stream or river begins to deposit silt when it begins to slow down. In steep terrain, larger sediments fall, but smaller sediments can still be carried. As the slope gets less steep, smaller sediments are dropped.
What transpires to sediments as wind speed decreases?Sediment that has been eroded is deposited in a new location when the speed of the wind or water slows. Fertile land is produced as a result of the sedimentation process.
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1- For an element, how does Avogadro’s number connect the atomic and macroscopic scales?
It describes the number of grams in 1 mole of an element.
It describes the number of atoms in 1 gram of an element.
It describes the number of atoms in 1 mole of an element.
It describes the number of moles in 1 gram of an element.
2- The atomic mass of the element platinum (Pt) is 195.08 amu. How many atoms of platinum are in 195.08 grams?
6.022×1023 atoms
1.175×1026 atoms
1.951×1025 atoms
3.087×1021 atoms
3- The atomic mass of copper (Cu) is 63.546 amu, the atomic mass of sulfur (S) is 32.065, and the atomic mass of oxygen (O) is 15.999 amu. Which molar mass is correct for copper sulfate (CuSO4)?
159.607 g/mol
225.802 g/mol
111.610 g/mol
446.440 g/mol
Answer:
1. It describes the number of atoms in 1 mole of an element.
2. 195.08 g Pt / 195.08 g/mol = 1 mol Pt
1 mol Pt x 6.022 x 10^23 atoms/mol = 6.022 x 10^23 atoms
The correct answer is: 6.022×10^23 atoms
3. Cu: 63.546 g/mol
S: 32.065 g/mol
O (4 atoms): 4 x 15.999 g/mol = 63.996 g/mol
Molar mass of CuSO4 = 63.546 + 32.065 + 63.996 = 159.607 g/mol
The correct answer is: 159.607 g/mol
What is the molarity of ions in a 0.611 M solution of Li₂SO assuming
the compound dissociates completely?
The compound Li₂SO₄ on dissociation gives two moles of Li+ ions and one mole of SO₄ ²⁻ ions. Then the molarity of SO₄ ²⁻ is 0.611 M itself and the molarity of Li+ ions is 1.22 M.
What is molarity ?Molarity of a solution is the ratio of number of moles of solutes in that solution to the volume of solution in liters. It is a colligative property and depends on the amount of solute and solvent.
Molarity = n/V in L.
Given that, the molarity of Li₂SO₄ solution is 0.611 M. The complete dissociation of this compound is written as follows:
[tex]\rm Li_{2}SO_{4} \rightarrow 2 Li^{+} +SO_{4}^{2-}[/tex]
Here, the ionization of the compound produces 2 moles of Li+ and one mole of sulphate ions. Then, the molarity of the sulphate ions is the same as the whole solution that is 0.611 M.
Then molarity of the Li+ ions in the solution will be 1.22 M.
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Consider the following mechanism.
O3 → O2 + O (slow) O3 + O → 2O2 (fast)
a. Write the overall balanced chemical equation.
b. Identify any intermediates within the mechanism.
c. What is the order with respect to each reactant?
d. Write the rate law for the overall reaction.
Answer:
a. The overall balanced chemical equation for the reaction is: 3O3 → 3O2 + O b. The intermediate in the mechanism is O3. c. The order of the reaction is first order with respect to O3 and second order with respect to O. d. The rate law for the overall reaction is rate = k[O3]^1[O]^2.
1. Calcutate the mass of Sliver deposited
at the Cathode during the electrysis of
Nitrate (AgNO3) Solution, H,
bliver
CL use of
of
Current
DIO
The mass of sliver deposited at the cathode during the electrolysis of Nitrate (AgNO₃) solution is 0.0011 gram.
What is electrolysis ?
The term electrolysis is defined as a chemical reaction that happens when an electric current is pass over through a substance. The substance gets or loses an electron during chemical reaction.
Given:
Current = 0.10 ampere
Tome = 10 second
Molar mass of Ag = 108 g mol−1
1 Faraday = 96500 C
Q = i × t
=0.1 × 10 × 60
= 60 Coulombs
Weight of the substance deposited = ZQ
Z=M/nF
n-factor of AgNO3 = 1
Z = 108 / 1 × 96500
= 0.0011 gram
Thus, 0.0011 gram is the mass of Sliver deposited at the Cathode during the electrolysis of Nitrate (AgNO₃) Solution.
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Your question is incomplete, most probably your question was
Calculate the mass of Sliver deposited at the Cathode during the electrolysis of Nitrate (AgNO3) Solution,use a current of 0.10 ampere for 10 minutes.
What is the molar concentration of a solution prepared by diluting 10. 0 ml of the solution in question #1 to a total volume of 50. 00 ml?.
The molar concentration of the solution prepared by diluting it from 10 ml to 50 ml is 0.0004000 mol/L.
In order to calculate the molar concentration of the diluted solution, firstly we need to know the molar concentration of the original solution and its dilution factor. The dilution factor is the ratio of the final volume to the initial volume. The dilution factor can be calculated here :
dilution factor = final volume / initial volume
dilution factor = 50.00 ml / 10.0 ml
dilution factor = 5.00
The molar concentration of the diluted solution can be calculated by using the formual M1V1 = M2V2
Here M1 is the initial molar concentration, V1 is the initial volume of the solution, M2 is the final molar concentration, and V2 is the final volume.
Putting the values we have in the equation M1V1 = M2V2.
M1 = the molar concentration of the original solution is unknown.
V1 = 10.0 ml
M2 = the molar concentration of the diluted solution is unknown.
V2 = 50.00 ml
Using this formula and solving for M2, we get:
M2 = M1V1 / V2
Since, we do not know the initial molar concentration, M2 can not be calculated directly. But, we do know that the number of moles of solute is the same before and after the dilution. Therefore, we can use the following equation:
n = M1V1 = M2V2, where n is the number of moles of solute.
n = M1V1
M1 = n / V1
after putting in the given values :
n = M1V1
M1 = n / V1 = (10.0 ml / 1000.0 ml/L) x (0.2000 mol/L)
M1 = 0.002000 mol
Since we know the initial molar concentration now, we can use the formula M2 = M1V1 / V2 to find the molar concentration of the diluted solution,
M2 = M1V1 / V2 = (0.002000 mol/L) x (10.0 ml / 50.00 ml)
M2 = 0.0004000 mol/L
Hence, the molar concentration of the solution diluted from 10 ml to 50 ml is calculated out to be 0.0004000 mol/L.
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CAN SOMEONE HELP WITH THIS QUESTION?✨
Only sketch B has water molecules in the correct shape/state that the indicated temperature predicts.
On the first assumption that all processes or water states exist at normal atmospheric pressure and temperature conditions!
In the images attached to this solution, sketch A is -23°C, sketch B is 237°C, and sketch C is 60°C.
But for water, the boiling point is 100°C. This means the temperature at which the shape changes from a nearly incompressible liquid state in which water molecules are fairly free to move to a gaseous state in which water molecules (now called steam) are completely free to move.
Its melting point is 0°C. In other words, this is the temperature at which water molecules change from an ordered solid (called ice), where motion is entirely confined to vibration, to the more free liquid state.
This explanation suggests that water molecules exist in an ordered solid form at temperatures below 0 °C.
Water molecules exist as a fairly free liquid at temperatures between 0°C and 100°C, and above 100°C they exist in a freely mobile gaseous state. In the sketch attached to this solution, sketch A clearly shows that the water molecules are in a form in which they are fairly free to move (i.e. in liquid form), corresponding to this state at a temperature of -23 °C. , which corresponds more closely to the fixed ordered state. State of water molecule like sketch C. So this is a mismatch.
Sketch B shows the water molecules in a very free gaseous state, which corresponds exactly to this state at temperatures well above the boiling point of water, 237°C. This will give you an exact match between temperature and sketch.
However, sketch C shows water molecules in a highly organized solid form, but this form has not been adapted to 60 °C. This is similar to the sketch A liquid state sketch. Only sketch B has water molecules in the correct shape/state that the indicated temperature predicts!
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25.0 mL of a 0.2450 M NH4Cl solution is added to 55.5 mL of 0.1655 M FeCl3. What is the concentration of chloride ion in the final solution?
Keep in mind that concentration (mol/L) = (# of moles) / (volume (L) )
Find the volume in litres is easy: 25.0mL + 55.5mL = 80.5 mL = 0.0805 L
Now we have to find the number of moles of Chlorine (Cl) moles of Cl in 25.0mL of NH4Cl = (25.0mL)(1 L/1000mL)(0.2450mol NH4Cl/1L)(1 mol Cl/1 mol NH4Cl) = 0.006125 mol
Cl moles of Cl in FeCl3= (55.5mL)(1 L/1000mL)(0.1655mol FeCl3/1 L)(3 mol Cl/ 1 mol FeCl3) = 0.02755575 mol Cl
Total moles Cl = 0.006125 + 0.02755575 = 0.03368075 mol Cl
Concentration = (0.03368075/0.0805) = 0.418 mol/L Cl
What is concentration of solutions?
The amount of solute that has been dissolved in a specific volume of solvent or solution is measured by the solution's concentration. A solution that contains a significant amount of dissolved solute is said to be concentrated. A solution is said to be dilute if it only contains a small amount of dissolved solute.
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How many molecules are in 0.0023 moles of CO2?
Taking into account the definition of Avogadro's Number, 1.38529×10²¹ molecules in 0.0023 mole of CO₂ .
Definition of Avogadro's NumberAvogadro's number is defined as the number of particles (atoms, molecules, ions, electrons) in 12 grams of carbon-12, that is, in one mole of the substance or compound.
Its value is 6.023×10²³ particles per mole and it applies to any substance.
Molecules of CO₂ in this caseConsidering the definition of Avogadro's number, you can apply the following rule of three: If 1 mole of CO₂ contains 6.023×10²³ molecules, 0.0023 mole of CO₂ contains how many molecules?
amount of molecules of CO₂= (0.0023 moles × 6.023×10²³ molecules)÷ 1 mole
amount of molecules of CO₂= 1.38529×10²¹ molecules
Finally, there are 1.38529×10²¹ molecules.
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What is the molarity of ions in a 0.611 M solution of Li₂SO assuming
the compound dissociates completely?
The molarity of both Li+ and SO42- ions in a 0.611 M solution of Li2SO4 is 1.22 M.
What is lithium sulfate?
Lithium sulfate is a white inorganic salt with the formula Li₂SO₄.
When lithium sulfate (Li2SO4) dissolves in water, it dissociates into Li+ and SO42- ions:
Li2SO4(s) → 2 Li+(aq) + SO42-(aq)
If we assume that Li2SO4 dissociates completely in solution, then we can calculate the molarity of the Li+ and SO42- ions separately.
For Li+, we can use the stoichiometry of the dissociation reaction to see that the concentration of Li+ ions is twice the concentration of Li2SO4:
[L i⁺] = 2 × [Li₂SO4] = 2 × 0.611 M = 1.22 M
For SO42-, we also need to take into account that each formula unit of Li2SO4 produces two SO42- ions. Therefore, the concentration of SO42- ions is twice the concentration of Li2SO4:
[SO4²⁻] = 2 × [Li₂SO4] = 2 × 0.611 M = 1.22 M
So the molarity of both Li+ and SO42- ions in a 0.611 M solution of Li2SO4 (assuming complete dissociation) is 1.22 M.
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What is the density of a liquid with a mass of 17.4 g and a volume of 20 mL? Where would this liquid be in the column?
The density of the liquid is 0.87 g/mL. This liquid would be located in the "less dense than water" column since the density is less than 1 g/mL.
What is density?Density is a measure of mass per unit volume. It is used to measure the concentration of matter in a given space. The SI unit of density is kg/m3, although other units such as g/cm3 may also be used. The density of an object can be determined by dividing its mass by its volume. Density is an important physical property that affects how materials interact with each other, as well as how they interact with light and sound. For example, a denser material will be more likely to sink in a liquid. Additionally, higher density materials will generally be more durable than lower density materials. Density is also an important factor in understanding the behavior of fluids and gases.
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Which technique uses a porous barrier to separate a solid from a liquid?
Answer:
Filtration
Explanation:
FILTRATION = A technique that uses a porous barrier to separate a solid from a liquid.
which of the following processes produces the most atp? view available hint(s)for part c which of the following processes produces the most atp? a. glycolysis krebs b. cycle and oxidative c. phosphorylation d. hydrolysis of creatine phosphate
The highest levels of atp are produced through the glycolysis Krebs (a) process.
What is phosphorylation with ATP?By means of chemiosmosis, oxidative phosphorylation generates ATP using energy from the movement of electrons in an electron transport system. Only one proton (H+) and one electron are present in a hydrogen atom. Potential energy, or stored energy, is available to do work in electrons. A glucose molecule needs two ATP molecules to be completely phosphorylated. When glucose is phosphorylated to fructose 1,6-diphosphate in glycolysis, two molecules of ATP are used up.
What process is phosphorylation?A biological process called phosphorylation involves the addition of phosphate to an organic molecule. For two examples, adding phosphate to glucose will result in glucose monophosphate or adding it to adenosine diphosphate (ADP) will result in adenosine triphosphate (ATP).
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if a solution is able to conduct electricity, which of the following compounds must be dissolved in it?
If a solution is able to conduct electricity,ionic compounds must be dissolved in it as it will generate ions.
What are ions?
An ion is defined as an atom or a molecule which has a net electrical charge. There are 2 types of ions :1) cation 2) anion . The cation is the positively charged ion and anion is the negatively charged ion . As they are oppositely charged they attract each resulting in the formation of ionic bond.
Ions consisting of single atom are mono-atomic ions while which consists of two or more ions are called as poly-atomic ions . They are created by chemical interactions . They are very reactive in their gaseous state and rapidly react with oppositely charged ions resulting in neutral molecules.
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How to find answers for a-e
The balanced equation for the given reaction is Cu[tex]_2[/tex]SO[tex]_4[/tex] + Ba(NO[tex]_3[/tex])[tex]_2[/tex] →2CuNO[tex]_3[/tex]+ BaSO[tex]_4[/tex]. The precipitates that result from it are these insoluble salts.
What is precipitation reaction?Chemical reactions known as precipitation reactions take place in aqueous solutions to produce precipitates. Moreover, chemical changes that occur inside the substances are a part of chemical processes. Hence, under some circumstances, it creates an entirely novel element.
It denotes a chemical process in which two ions combine to generate insoluble salts in aqueous solutions. The precipitates that result from it are these insoluble salts. Single displacement reactions and double displacement reactions are also possible.
a)The balanced equation for the given reaction is
Cu[tex]_2[/tex]SO[tex]_4[/tex] + Ba(NO[tex]_3[/tex])[tex]_2[/tex] →2CuNO[tex]_3[/tex]+ BaSO[tex]_4[/tex]
b) moles of Ba(NO[tex]_3[/tex])[tex]_2[/tex] = 0.02×0.2=0.04moles
The mole ratio between Ba(NO[tex]_3[/tex])[tex]_2[/tex] and BaSO[tex]_4[/tex] is 1:1
moles of BaSO[tex]_4[/tex]= 0.04moles
Therefore, the balanced equation for the given reaction is
Cu[tex]_2[/tex]SO[tex]_4[/tex] + Ba(NO[tex]_3[/tex])[tex]_2[/tex] →2CuNO[tex]_3[/tex]+ BaSO[tex]_4[/tex]
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which of the following equations is used in this experiment's calculations to find the molar volume of an ideal gas? group of answer choices
PV = nRT is the equation used in this experiment's calculations to find the molar volume of an ideal gas.
What is ideal gas?Ideal gas is a theoretical gas composed of a set of randomly-moving, non-interacting point particles that obey certain mathematical equations. It is assumed that the particles of an ideal gas have no volume, no inter-particle forces, and that the pressure, volume, and temperature are related by the ideal gas law. Ideal gas behaviour is an approximation of the behaviour of real gases under many conditions, and is widely used in the field of thermodynamics and statistical mechanics.
This equation states that the product of pressure and volume is equal to the number of moles of the gas multiplied by the gas constant and the temperature of the gas.
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Complete Question
which of the following equations is used in this experiment's calculations to find the molar volume of an ideal gas? group of answer choices
A) PV = nRT
B) V = nRT/P
C) Both A and B
D) None to these
What mass (in grams) of aluminum chloride has the same number of aluminum atoms as
3.19g of aluminum oxide?
The mass (in grams) of aluminum chloride that has the same number of aluminum atoms as 3.19 g of aluminum oxide is 8.36 g
How do I determine mass of aluminum oxide?First, we shall determine the mass of aluminum, Al present in 3.19 g of aluminum oxide, Al₂O₃. Details below:
1 mole of Al₂O₃ = (27 × 2) + (16 × 3) = 102 gMass of Al in 1 mole of Al₂O₃ = 2Al = 2 × 27 = 54 gMass of Al in 3.19 g of Al₂O₃ =?102 g of Al₂O₃ contains 54 g of Al
Therefore,
3.19 g of Al₂O₃ will contain = (3.19 × 54) / 102 = 1.69 g of Al
Next, we shall determine the number of atoms in 1.69 g of Al. Details below:
From Avogadro's hypothesis,
1 mole of Al = 6.02×10²³ atoms
But
1 mole of Al = 27 g
Thus,
27 g of Al = 6.02×10²³ atoms
Therefore,
1.69 g of Al = (1.69 × 6.02×10²³) / 27
1.69 g of Al = 3.772×10²² atoms
Finally, we shall determine the mass of aluminum chloride, AlCl₃. Details below:
From Avogadro's hypothesis,
6.02×10²³ atoms = 1 mole of AlCl₃
But
1 mole of AlCl₃ = 133.5 g
Thus,
6.02×10²³ atoms = 133.5 g of AlCl₃
Therefore,
3.772×10²² atoms = (3.772×10²² × 133.5) / 6.02×10²³
3.772×10²² atoms = 8.36 g
Thus, the mass of aluminum chloride, AlCl₃, is 8.36 g
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If 5.20 mol of calcium carbide (CaC2) reacts with an excess of water, how many moles of acetylene (C2H2), a gas used in welding, will be produced
5.20 mol of calcium carbide (CaC2) will produce 2.60 moles of acetylene (C2H2).
What is acetylene?Acetylene (C2H2) is a colorless, flammable gas primarily composed of two carbon atoms and two hydrogen atoms. It is one of the simplest and most useful of all the organic compounds. Acetylene is used in a variety of industrial applications, from welding and cutting metals to producing polyethylene plastics. Acetylene is also used as an industrial fuel and a chemical feedstock for many other compounds. As a fuel, acetylene is used for heating, lighting, and powering engines, as well as in torches for welding and cutting metals.
Based on the chemical equation for the reaction, calcium carbide (CaC2) reacts with water (H2O) to produce acetylene (C2H2) and calcium hydroxide (Ca(OH)2).
CaC2 + 2H2O → C2H2 + Ca(OH)2
Since 5.20 mol of CaC2 is given and water is in excess, we can assume that the amount of water is enough to completely react with the calcium carbide.
Using the mole ratio of the equation, we can calculate the amount of acetylene produced. Since 1 mole of CaC2 reacts with 2 moles of H2O to produce 1 mole of C2H2, 5.20 moles of CaC2 will produce 2.60 moles of C2H2.
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Carbonyl fluoride, cof2 , is an important intermediate used in the production of fluorine-containing compounds. For instance, it is used to make the refrigerant carbon tetrafluoride, cf4 via the reaction.
The concentration of carbonyl fluoride (COF2) remains at equilibrium is 0.33M if only COF2 is present initially at a concentration of 2.00 M.
The reaction given is an equilibrium reaction, and so the reaction can be expressed in terms of the equilibrium constant (Kc).
The equilibrium constant (Kc) for the reaction is given as = 5.10.
[tex]2COF2(g) ,--- > CO2(g)+CF4(g)[/tex]
For an equilibrium reaction, the equilibrium concentration of the reactants can be determined using the following equation:
[tex]Kc = [CO2][CF4]/[COF2]^2[/tex] Where [CO2], [CF4], and [COF2] are the equilibrium concentrations of the respective species.
Rearranging the equation gives us the following expression:
[tex][COF2]^2 = [CO2][CF4]/Kc[/tex]
ICE chart is :
[tex]2COF2(g) < -- > CO2(g) + CF(g)[/tex]
I 2 0 0
C -2x +x +x
----------------------------------------------------------
E 2-2x x x
Plugging in the values given, we can calculate the equilibrium concentration of COF2:
[tex]Kc = (x)(x)/(2-2x)^2[/tex]
[tex]6.40 = x^2/(2-2x)^2[/tex]
Taking the square root of both sides, we can calculate the equilibrium concentration of COF2:
x = 0.835M
[COF2] = 2-2x =2 -2(0.835) = 0.33M
Therefore, if only COF2 is present initially at a concentration of 2.00 M, the concentration of COF2 at equilibrium will be 0.33 M.
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complete question: Carbonyl fluoride, COF2 , is an important intermediate used in the production of fluorine-containing compounds. For instance, it is used to make the refrigerant carbon tetrafluoride, CF4 via the reaction 2COF2(g)⇌CO2(g)+CF4(g), Kc = 6.40 . If only COF2 is present initially at a concentration of 2.00 M, what concentration of COF2 remains at equilibrium?
The relation between the volume of titanium and iron in a bicycle weighing 5 kg, if
titanium has a density of 4.5g/cm³ and iron has a density of 7.87 g/cm 3 (ignore
other materials). Write a constraint equation, determine two solutions, and graph
the equation and mark your solutions.
please help
The solutions for both are:
V_titanium = (1/4) V_total ≈ 0.188 cm³
And
V_iron = (3/4) V_total ≈ 0.565 cm³
We have a line in the V_titanium-V_iron plane with slope -4.5/7.87 and y-intercept 5/7.87. The two solutions above correspond to the points where this line intersects the line V_titanium = 0 and V_iron = 0, respectively.
Calculating the volumes of Titanium and IronThe volume of titanium and iron in a bicycle can be related using the following constraint equation:
V_titanium * 4.5 + V_iron * 7.87 = M_total / 1000
where V_titanium and V_iron are the volumes of titanium and iron in cubic centimeters (cm³), M_total is the total mass of the bicycle in grams (g), and we divide by 1000 to convert the mass to kilograms.
We are given that the bicycle weighs 5 kg or 5000 g, so we can substitute M_total = 5000 into the equation:
V_titanium * 4.5 + V_iron * 7.87 = 5000 / 1000
4.5 V_titanium + 7.87 V_iron = 5
This is a linear equation in two variables, V_titanium and V_iron. To find two solutions, we need one additional equation that relates V_titanium and V_iron. One possibility is to assume that the bicycle contains a fixed ratio of titanium to iron, say 1:3. Then we can write:
V_titanium = (1/4) V_total
V_iron = (3/4) V_total
where V_total is the total volume of the bicycle, which is the sum of the volumes of titanium and iron:
V_total = V_titanium + V_iron
Substituting these expressions into the constraint equation and simplifying, we get:
(4.5/4) V_total + (7.87/4) V_total = 5/2
3.31 V_total = 5/2
V_total = (5/2) / 3.31
V_total ≈ 0.753 cm³
Using the ratios above, we can then calculate the volumes of titanium and iron:
V_titanium = (1/4) V_total ≈ 0.188 cm³
V_iron = (3/4) V_total ≈ 0.565 cm³
These are the two solutions for the volumes of titanium and iron in the bicycle, assuming a fixed ratio of 1:3.
To graph the constraint equation, we can solve for V_iron as a function of V_titanium:
V_iron = (5 - 4.5 V_titanium) / 7.87
This gives us a line in the V_titanium-V_iron plane with slope -4.5/7.87 and y-intercept 5/7.87. The two solutions above correspond to the points where this line intersects the line V_titanium = 0 and V_iron = 0, respectively.
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