The standard reduction potential of Y₃⁺ is +1.97 V.
The cell potential of a galvanic cell is given by the difference between the standard reduction potentials of the two half-cells. In this case, the cell consists of two half-cells:
Y₂O₃(s) + 6H⁺(aq) + 3e⁻ → 2Y³⁺(aq) + 3H₂O(l) E° = +1.97 V
AgBr(s) + e⁻ → Ag(s) + Br⁻(aq) E° = +0.65 V
The cell potential is given as 1.32 V. We know the reduction potential of one half-cell (AgBr/Ag), so we can use it to determine the reduction potential of the other half-cell (Y₂O₃/Y³⁺):
E°cell = E°reduction (Y³⁺) - E°reduction (AgBr)
1.32 V = E°reduction (Y³⁺) - 0.65 V
E°reduction (Y³⁺) = 1.32 V + 0.65 V
E°reduction (Y³⁺) = 1.97 V
Therefore, Y₃⁺ has a typical reduction potential of +1.97 V, which is the reduction potential of Y₃⁺ under standard conditions (1 M concentration, 1 atm pressure, 25°C temperature).
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Fifteen 15kg of iron lll oxide was used in a reaction to produce iron.calculate the mass of iron produced in the reaction
Answer: 10.51 kg of iron is produced in the reaction.
Explanation: The balanced equation for the reaction between iron III oxide and iron is:
2Fe2O3 + 3C → 4Fe + 3CO2
From the equation, we can see that 2 moles of Fe2O3 react to produce 4 moles of Fe. We can use the molar mass of Fe2O3 to convert the given mass to moles, and then use the mole ratio to calculate the moles of Fe produced. Finally, we can convert the moles of Fe to mass using the molar mass of Fe.
The molar mass of Fe2O3 is:
2(55.85 g/mol Fe) + 3(16.00 g/mol O) = 159.69 g/mol Fe2O3
So, 15 kg (or 15000 g) of Fe2O3 is equal to:
15000 g / 159.69 g/mol = 94.03 mol Fe2O3
According to the balanced equation, 2 moles of Fe2O3 produce 4 moles of Fe. So, 94.03 moles of Fe2O3 will produce:
4/2 x 94.03 = 188.06 moles of Fe
The molar mass of Fe is 55.85 g/mol, so the mass of Fe produced is:
188.06 mol x 55.85 g/mol = 10507.8 g or 10.51 kg
Why does the Philippines have relatively high humidity?
Explanation:
Humidity levels are high, averaging around 82% due to the warm moist trade winds that flow through the archipelago, as well as sea surface temperatures, a rich and vibrant vegetative cover and abundant rainfall.
Copper is low down in the reactivity series and can be obtained from
copper oxide.
Devise a simple method to obtain a sample of copper from copper oxide in
the laboratory.
Answer:
reducing it with a reducing agent
A student dissolves 11.8 g of sodium hydroxide (NaOH) in 250. g of water in a well-insulated open cup. He then observes the temperature of the water rise
from 20.0 °C to 31.3 °C over the course of 6.7 minutes.
Use this data, and any information you need from the ALEKS Data resource, to answer the questions below about this reaction:
NaOH(s) -. Nat (ag) + OH (ag)
You can make any reasonable assumptions about the physical properties of the solution. Be sure answers you calculate using measured data are rounded to 3
significant digits.
Note for advanced students: It's possible the student did not do the experiment carefully, and the values you calculate may not be the same as the known and
published values for this reaction.
See image attached
The reaction in the experiment is exothermic reaction and 158.72 kilo joules at 34.51 degrees celsius is released.
How to calculate change in enthalpy We must ascertain the enthalpy in the second experiment. Using the data from the first and second experiments, we will determine this. We can infer from the data of the first experiment that either heat was released or carried out in the second experiment. This benzoic acid is agitated, producing heat that is equivalent to the heat produced by water. Heat has been produced as a result of the commotion in c. 6 h. The experiment's acid weighs 6 grams, and this measurement is in joules per gram. A unit of water heat is 6 grams. The specific heat of the water used in the experiment is 4.184 joules per gram per 1000 milliliters temperature difference in the first experiment is 21255.51 minus 21 degrees Celsius. We will first need to determine the calorimeter C's heat capacity, and then we will need to determine the temperature change. The result will be 142.389 kilo joules and 158.72 kilo joules at 34.51 degrees celsius.For more information on change in enthalpy kindly visit to
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Dipolar molecules have a positive and negative center at two different points.
True
False
Dipolar molecules have a separation of charge with a positive center and a negative center located at two different points, resulting in a net dipole moment. The correct option is true
What is Dipolar molecules ?Dipolar molecules are molecules that have a separation of charge, resulting in a positive center and a negative center located at two different points in the molecule.
This separation of charge creates a net dipole moment, which is a measure of the molecule's polarity. The magnitude and direction of the dipole moment depend on the difference in electronegativity between the atoms in the molecule and the molecule's geometry.
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What is molecular weight of a substance given that 1.22g of the sample was vaporised in 100ml flask at 45°C and 687mmHg.
To calculate the molecular weight of a substance from its vapor density, we can use the following formula:
Molecular weight = (RT/P) x d
where:
R is the gas constant (0.0821 L atm/mol K)
T is the temperature in Kelvin
P is the pressure in atm
d is the vapor density (in g/L) of the substance
First, we need to calculate the vapor density of the substance using the given information. We can use the ideal gas law to find the number of moles of the substance in the flask:
PV = nRT
where:
P is the pressure (687 mmHg = 0.903 atm)
V is the volume (100 mL = 0.1 L)
n is the number of moles of gas
R is the gas constant (0.0821 L atm/mol K)
T is the temperature in Kelvin (45°C = 318 K)
Solving for n, we get:
n = PV/RT = (0.903 atm)(0.1 L)/(0.0821 L atm/mol K)(318 K) = 0.00372 mol
Next, we can use the mass and volume information to find the density of the substance:
density = mass/volume = 1.22 g/0.1 L = 12.2 g/L
Since the vapor density is half of the density of the substance in the liquid state, we can calculate the vapor density:
vapor density = density/2 = 6.1 g/L
Finally, we can use the formula above to find the molecular weight:
Molecular weight = (RT/P) x d
Molecular weight = (0.0821 L atm/mol K)(318 K)/(0.903 atm) x 6.1 g/L
Molecular weight = 92.2 g/mol
Therefore, the molecular weight of the substance is 92.2 g/mol.
see image attached please and thank you
hope it helps:)
[tex]a. \: Ca + Cl _{2} → CaCl _{2} \\
\\ b. \: Cl _{2}+H _{2} O+ NaOH → \\ NaCl+ H _{2}O \\ \\
c. \: \: \: H _{2} SO _{4} +CaCO _{3} → \\ CaSO _{4} +H _{2}O+CO _{2} \\ \\
d. \: \: Fe+Cu(NO _{3}) _{2} → \\ Fe(NO _{3} ) _{2}+Cu[/tex]
brainliest pls 。◕‿◕。
Locating the epicenter of an earthquake lab
Eruption triangulation is a method for locating an earthquake's epicenter.
What is epicenter?The area right above the spot in the Earth's crust where an earthquake originates or begins is known as the epicenter. It marks the spot on the Earth's surface where the earthquake's seismic waves first touchdown.
The distance between the earthquake's epicenter and a number of seismograph stations is calculated using seismograms, which are records of the ground motion brought on by an earthquake.
The following are the steps to find an earthquake's epicenter:
A minimum of three separate seismograph stations should have data collected. The epicenter's distance from each station is determined by keeping track of the time the earthquake waves arrived at each station.
Map out the positions of each seismograph station.
Draw circles with an equal radius around each seismograph station using the distance information. Each circle's radius is equal to how far away the station is from the epicenter.
At the place where the circles converge, there is an epicenter.
It is crucial to keep in mind that determining the epicenter of an earthquake is not an exact science, and the precision of the position will vary depending on a number of variables, such as the caliber of the seismograms and the distance between the earthquake and the seismograph stations.
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A student adds 5.48 g of vitamin C ( ascorbic acid, C6H8O6 ) to 50.0 mL of water. What is the molarity of the situation
The molarity of the ascorbic acid ([tex]C_6H_8O_6[/tex]) solution is 0.622 M.
To find the molarity of solution, we need to first calculate number of moles of ascorbic acid present in solution, using the formula:
moles = mass / molar mass
The molar mass of ascorbic acid is:
6(12.01 g/mol) + 8(1.01 g/mol) + 6(16.00 g/mol) = 176.12 g/mol
So, the number of moles of ascorbic acid present in the solution is:
moles = 5.48 g / 176.12 g/mol = 0.0311 mol
Next, we need to calculate the volume of the solution in liters, using the conversion:
[tex]1 mL = 1 * 10^{-3} L[/tex]
50.0 mL x 1 L / 1000 mL = 0.0500 L
Finally, we can calculate the molarity of the solution:
molarity = 0.0311 mol / 0.0500 L = 0.622 M
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in which year was the population of arctic fox the greatest? how many where there?
In the year 2000, the population of Arctic foxes reached its peak.
What is population?A region's population is the total number of people living there. Typically, it is expressed as the number of persons in a given volume or region. A census is typically performed to estimate population in order to ascertain its size, density, and distribution. The term "population" can also refer to the variety of species present in a region. Population growth is the gradual rise in a species' number of individuals in a particular area.
At that time, the total number of Arctic foxes in their habitat, which stretches from northern Europe and Asia over the tundra of the Arctic Circle, was believed to be 745,000. Based on the International Union for Conservation of Nature's most recent estimations, this population figure.
The Arctic fox is a very tough species that can endure some of the world's harshest environments. They can also adjust to their surroundings and eat a range of foods, such as grass, eggs, carrion, small mammals, and carrion.
Unfortunately, a variety of causes are causing the Arctic fox population to decline at the moment. Additionally, human actions like hunting, habitat loss, and fur trapping are lowering their numbers.
The Arctic fox is not now facing extinction, according to the IUCN, which has classified it as a species of Least Concern. However, the species is threatened by a number of factors, and unless conservation efforts are made, its population is likely to keep declining.
Reducing human influences on the Arctic fox's environment is crucial for its protection. This entails restricting hunting and trapping in addition to minimising habitat loss and pollution. The ability of the species to adapt to climate change should also be improved, and their population numbers and trends should be tracked. If these steps are adopted, the number of Arctic foxes may eventually return to its original high.
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The complete question is,
Which year saw the highest arctic fox population? How many people attended?
CAN SOMEONE EHLP WITH THIS QUESTION?
The absorbance of this solution at this wavelength would be 0.287.
How to find the absorbance ?We can use the relationship between percent transmittance (%T) and absorbance (A) :
% T = 10 ^ ( - A )
Rearranging this equation, we can solve for A:
A = - log (%T / 100 )
Substituting the given value, we get:
A = - log ( 51. 6 / 100) = - log (0. 516) = 0. 287
Therefore, the absorbance of this solution at 550 nm is 0.287 .
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climate on river and streams
Due to changes in stream temperature, stream flow due to shortages or increased storms, and other stressors which can affect ecosystem health, these aquatic ecosystems are at risk from climate change.
The long-term trend of the weather in a place is called the climate. Hour by hour, day by day, month by month, or even year by year, the weather might change. Due to changes in stream temperature (which results in a corresponding drop in oxygen levels).
Stream flow due to shortages or increased storms, and other stressors (such as increased storm runoff such as nutrients, pollutants, along with sediment) which can affect ecosystem health, these aquatic ecosystems are at risk from climate change.
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Calculate the mass of butane needed to produce 70.8 g of carbon dioxide
The mass of butane, C₄H₁₀ needed to produce 70.8 g of carbon dioxide, CO₂ is 23.3 g
How do i determine the mass of butane needed?First, we shall write the balanced equation for the reaction. Details below:
2C₄H₁₀ + 13O₂ -> 8CO₂ + 10H₂O
Molar mass of C₄H₁₀ = 58 g/molMass of C₄H₁₀ from the balanced equation = 2 × 58 = 116 g Molar mass of CO₂ = 44 g/molMass of CO₂ from the balanced equation = 8 × 44 = 352 gFrom the balanced equation above,
352 g of CO₂ were obtained from 1 16 g of C₄H₁₀
Finally, we shall determine the mass of butane, C₄H₁₀ neeeded to produce 70.8 g of carbon dioxide, CO₂. Details below:
From the balanced equation above,
352 g of CO₂ were obtained from 116 g of C₄H₁₀
Therefore,
70.8 g of CO₂ will be obtain from = (70.8 × 116) / 352 = 23.3 g of C₄H₁₀
Thus, the mass of butane needed is 23.3 g
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what is the advantages of gold
Answer:
Gold is the most malleable and ductile metal. It is soft and usually alloyed to give it more stability as it is easily bent. It is a great conductor of heat and electricity, but its greatest strength comes from the fact that does not react with oxygen. It is found that gold is unaffected by air, water, bases and most acids.
2LiO
1. Determine the type of compound
2. Name the compound
3. Determine the chemical formula for the compound
Answer:
1. Ionic Compound
2.Lithium Oxide
3. Li2O
Explanation:
This is an Ionic Compound because (Lithium) the metal or cation is giving away electrons to the oxygen a nonmental or anion so both can have a full valence electron shell or have all the electrons on the outer most shell.
This is also Lithium Oxide because the metal goes first then the nonmetal and the ending of the non metal is ending with an ide.
The chemical formula is the periodic table symbols (usually the metal first) and then the charges are switched. E.g Sample A has charge of 3 and sample B has a charge of 2. The formula would be A2B3. If the charge is 1 then you can leave it blank because it is understood. E.g is sample B had a charge of 1 then it would be AB3
(ii) 10% of the atoms in a sample of element E have a mass number of 22. All the other atoms in this sample have a mass number of 20. Calculate the relative atomic mass of element E.
Answer:
Explanation:
The total mark for this paper is 60.
t The marks for each question are shown in brackets
– use this as a guide as to how much time to spend on each question.
t Questions labelled with an asterisk (*) are ones where the quality of your
written communication will be assessed
– you should take particular care with your spelling, punctuation and grammar, as
well as the clarity of expression, on these questions.
Advice
t Read each question carefully before you start to answer it.
t Keep an eye on the time.
t Try to answer every question.
t Check your answers if you have time at the end.
Calculate the cell potential (Ecell) at 25oC (298 K) for the following reaction if the Cu2+ ion concentration is 0.064 M and the Fe2+ ion concentration is 0.645 M.
Fe(s) + Cu2+(aq) → Fe2+(aq) + Cu(s)
Half-reaction Standard Reduction Potential (V)
Fe2+(aq) + 2e−→ Fe(s) −0.440
Cu2+(aq) + 2e−→ Cu(s) +0.337
R = 8.31 V/mol·K
F = 96500 C/mol
The cell potential (Ecell) at 25°C (298 K) for the given reaction is 1.065 V which means that the reaction is spontaneous because the calculated Ecell is positive
The cell potential (Ecell) for the given reaction can be calculated using the Nernst equation:
Ecell = E°cell - (RT ÷ nF) × ln(Q)
where E°cell = standard cell potential, R = gas constant, T = temperature in Kelvin, n = number of electrons transferred in the reaction, F = Faraday constant, and Q is the reaction quotient.
Since two electrons are transported in the half-reactions, n in this instance equals 2. With the help of the species concentrations, it is possible to determine the reaction quotient Q:
Q = [Fe2+] ÷ [Cu2+]
Q = 0.645 ÷ 0.064
Q = 10.078
Now, we can calculate the Ecell:
Ecell = E°cell - (RT ÷ nF) × ln(Q)
Ecell = (0.337 - (-0.440)) - (8.31 × 298 ÷ (2 × 96500)) × ln(10.078)
Ecell = 1.065 V
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Provide feedback to me if this assisted in giving you a better understanding of the history of chemistry, and what could be done differently (three paragraph maximum).
Lavoisier has been considered by many scholars to be the father of chemistry. Chemists continued to discover new compounds in the 1800s. The science also began to develop a more theoretical foundation. It was in 1807, John Dalton put forth his atomic theory.
It was not until the era of the ancient Greeks that we have any record of how people explained the chemical changes they observed and used. At that time natural objects were thought to consist of only four basic elements like earth, air, fire and water.
It was in the fourth century BC, two Greek philosophers Democritus and Leucippus suggested that matter was not infinitely divisible into smaller particles but instead consists of the fundamental particles called the atoms. Chemistry took its present form in the 18th century.
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A flexible container at an initial volume of 3.10 L contains 3.51 mol of gas. More gas is then added to the container until it reaches a final volume of 17.1 L. Assuming the pressure and temperature of the gas remain constant, calculate the number of moles of gas added to the container.
The container received 15.7 moles of gas.
What is volume?Volume is a unit used to describe how much space an object or substance occupies. It is a physical quantity that, depending on the situation, is typically measured in measures like liters, cubic meters, or cubic feet.
How do you determine it?The ideal gas law can be used since the gas's temperature and pressure are constant:
PV = nRT
n is the number of moles, P is the pressure, V is the volume, R is the gas constant, and T is the temperature.
The following equation can be used to link the initial and final volumes because the pressure and temperature are constant.
V1 / n1 = V2 / n2
where V1 and n1 represent the beginning volume and molecular count, and V2 and n2 represent the ultimate volume and molecular count.
To solve for n2 we can rearrange this equation as follows:
n2 = (V2 / V1) * n1
Plugging in the values we are familiar with yields:
n2 = (17.1 L / 3.10 L) * 3.51 mol.
n2 = 19.2 mol
As a result, the container was filled with the following amount of gas:
n2 - n1= 19.2 mol - 3.51 mol = 15.7 mol
As a result, the container received 15.7 moles of gas.
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PLEASE HELP!!!!!!!!!!
A teaspoon of salt, NaCl has a mass of about 5.0 g. How many formula units are in a teaspoon of salt?
SHOW WORK PLS!!!!
The molar mass of NaCl is 58.44 g/mol, which means that one mole of NaCl contains 6.022 x 10^23 formula units (Avogadro's number).
To determine the number of formula units in a teaspoon of salt, we need to first determine how many moles of NaCl are present in 5.0 g of salt. This can be done using the following formula:
moles = mass / molar mass
moles = 5.0 g / 58.44 g/mol = 0.0854 mol
Next, we can use Avogadro's number to convert moles of NaCl to formula units:
formula units = moles x Avogadro's number
formula units = 0.0854 mol x 6.022 x 10^23 formula units/mol = 5.14 x 10^22 formula units
Therefore, there are approximately 5.14 x 10^22 formula units of NaCl in a teaspoon of salt.
100 mL of 3 M HCl can be neutralized with exactly 200 mL of 1.5 M NaOH. If this reaction is done in a coffee cup calorimeter, what temperature change would you expect to observe?
100 mL of 3 M HCl can be neutralized with exactly 200 mL of 1.5 M NaOH. If this reaction is done in a coffee cup calorimeter, temperature would increase.
A chemical reaction known as neutralisation occurs when an acid and a base quantitatively react with one another. Alternate spellings include Neutralisation. The pH in the neutralised solution is determined by the acidity of the reactant.
Have you ever overindulged in spicy food and felt your stomach start to burn? This results from the stomach producing acid. The use of an antacid, which counteracts the effects of acid, can solve this issue; this process is known as a neutralisation response. 100 mL of 3 M HCl can be neutralized with exactly 200 mL of 1.5 M NaOH. If this reaction is done in a coffee cup calorimeter, temperature would increase.
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Help with cathodes and electrolysis
The electrode indicated is the cathode
The contents of the beaker are the electrolyte
Electrons flow from the cathode to the anode
Dilute sulfuric acid will give colorless gases at both electrodes
The electrodes used could be made from platinum since they are inert.
What is electrolysis?Electrolysis is a process of using an electric current to drive a non-spontaneous chemical reaction.
This involves the use of an electrolytic cell, where an external power source is used to drive a chemical reaction that would otherwise not occur.
During electrolysis, positive and negative ions move toward the electrodes (positively charged anode and negatively charged cathode) where they undergo oxidation and reduction reactions respectively.
The process is commonly used in the production of metals, such as aluminum, and in the purification of copper and other metals. It is also used in various industrial and laboratory applications, including electroplating, electrorefining, and the production of hydrogen and oxygen gas.
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Please help, find the pressure with the gas
Answer:
Pressure of the gas =766.4 mmHg.
Explanation:
Gas pressure greater than atmospheric pressure = Atmospheric pressure + Height
745.0 mm + 26.4 cm = 766.4 mmHg.
Methanol is known to be the simplest alcohol, and is used for an antifreeze agent, a solvent, a fuel and a denaturing for ethyl alcohol. It is also know as wood spirit, as it is obtained from the pyrolysis of food. Today it is prepared as follows: CO(g) + 2H2(g) = CH3OH(1) Using the following data, what would be the enthalpy change for the reaction?
The enthalpy change for the reaction is 443.5 kJ/mol, this indicates that the reaction is exothermic, meaning that heat is released during the reaction.
The enthalpy change of a reaction can be calculated using the following equation:
ΔH = ΣΔH(products) - ΣΔH(reactants)
where ΔH is the enthalpy change, Σ is the sum, and the subscripts refer to the enthalpy of the products and reactants.
Using the data provided, we can look up the standard enthalpy of formation (ΔHf°) for each substance involved in the reaction:
ΔHf°(CO(g)) = -110.5 kJ/mol
ΔHf°(H₂(g)) = -285.8 kJ/mol
ΔHf°(CH₃OH(l)) = -238.6 kJ/mol
To calculate the enthalpy change of the reaction, we can plug in these values into the equation:
ΔH = [ΔHf°(CH₃OH(l))] - [ΔHf°(CO(g)) + 2ΔHf°(H₂(g))]
ΔH = [-238.6 kJ/mol] - [-110.5 kJ/mol + 2(-285.8 kJ/mol)]
ΔH = [-238.6 kJ/mol] - [-682.1 kJ/mol]
ΔH = 443.5 kJ/mol
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What is the only part of the comet that exists when it is further than 5 A.U from the sun?
Sublimation and the coma is the only part of the comet that exists when it is further than 5 A.U from the sun.
Generally by the time that the comet comes within about 5 AU of the Sun, sublimation has generally formed a noticeable atmosphere that can easily escape the comet's weak gravity. The coma basically forms as the escaping atmosphere which drags away dust particles that have been mixed with the sublimating ice.
Generally when a comet is at a great distance away from the Sun, it exists as a dirty snowball several kilmometers across. But when it comes closer to the Sun, the warming of its surface causes its materials to melt and vaporize which produces the comet's characteristic tail.
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CAN SOMEONE HELP WITH THIS QUESTION?
FROM Spectrophotometric Determination of Cobalt (ll)
Answer:
If a solution appears red, it is most likely that green light is being absorbed the strongest. When light passes through a solution, the solution absorbs certain colors of light while allowing others to pass through. The color that we see is the color that is not absorbed and is transmitted through the solution. In the case of a red solution, red light is transmitted while green light is absorbed. This selective absorption of light is due to the specific chemical composition of the solution.
A 115.0-g sample of a metal at 165.0 °C is added to 265.0 g of ethylene glycol (specific heat capacity = 2.43 J/g・ °C) in a calorimeter at 25.8 °C. The temperature of the ethylene glycol rises to 41.5 °C. Calculate the specific heat capacity of the metal, assuming that all the heat lost by the metal is gained by the ethylene glycol.
The specific heat capacity of the metal can be calculated to be 2.03 J/g・ °C. This result can be explained by the fact that the heat lost by the metal is equal to the heat gained by the ethylene glycol, since no other source of heat is present.
What is specific heat capacity?Specific heat capacity is the amount of heat energy needed to raise the temperature of a unit mass of a substance by 1 degree Celsius. It is measured in joules per kilogram Kelvin (J/kg K).
The specific heat capacity (c) of the metal can be calculated using the following equation:
Q = mc∆T
Where Q is the heat lost by the metal, m is the mass of the metal, and ∆T is the change in temperature of the metal.
Q = (115.0 g)(c)(165.0 °C - 25.8 °C)
On the other hand, the heat gained by the ethylene glycol can be calculated using the following equation:
Q = (265.0 g)(2.43 J/g・ °C)(41.5 °C - 25.8 °C)
By equating the two equations, we can solve for the specific heat capacity of the metal:
(115.0 g)(c)(165.0 °C - 25.8 °C) = (265.0 g)(2.43 J/g・ °C)(41.5 °C - 25.8 °C)
c = 2.03 J/g・ °C
Therefore, the specific heat capacity of the metal can be calculated to be 2.03 J/g・ °C.
This result can be explained by the fact that the heat lost by the metal is equal to the heat gained by the ethylene glycol, since no other source of heat is present.
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would lead to an increase in the internal energy of a system?
An increase in the internal energy of a system can be caused by several factors, such as heating, compression, and work done on the system.
In general, any process that adds energy to a system will result in an increase in its internal energy. For example, if heat is added to a gas in a closed container, the gas molecules will start moving faster and colliding more frequently, resulting in an increase in the internal energy of the gas.
Similarly, if work is done on a system, such as by compressing a gas, the internal energy of the gas will increase due to the increased kinetic energy of its molecules.
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Hydrogen Bonds: A specific type of dipole-dipole attraction results from the interaction of a hydrogen (H) atom and a weak electronegative atom
true or false
True. A specific type of dipole-dipole attraction results from the interaction of a hydrogen (H) atom and a weak electronegative atom
Why is the above statement true?A particular kind of dipole-dipole interaction known as a hydrogen bond occurs when a hydrogen atom is covalently connected to an element that is strongly electronegative, such as nitrogen (N), oxygen (O), or fluorine (F), and another weakly electronegative atom that is present nearby. The strongly electronegative atom draws the electrons in the hydrogen-self bond, leaving the hydrogen with a partial positive charge and the electronegative atom with a partial negative charge. As a result, this interaction takes place. A hydrogen bond, a relatively potent attraction, is produced when the hydrogen atom's partial positive charge interacts electrostatically with the surrounding electronegative atom's partial negative charge. Many biological processes, such as the binding of DNA base pairs, protein folding, and cell division, depend on hydrogen bonding.
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Complete the balanced molecular chemical equation for the reaction below. If no reaction occurs, write NR after the reaction arrow. Be sure to include the proper phases for all species within the reaction.
CsCl(aq) + K3PO4(aq) —>
The balanced equation for the given chemical reaction can be written as 3CsCl + K[tex]_3[/tex]PO[tex]_4[/tex]→ Cs[tex]_3[/tex] (PO[tex]_4[/tex]) + 3KCl.
An equation per a chemical reaction is said to be balanced if both the reactants plus the products have the same number of atoms and total charge for each component of the reaction. In other words, each component of the reaction have an equal balance of mass and charge.
The components and outcomes of a chemical reaction are listed in an imbalanced chemical equation, but the amounts necessary to meet the conservation of mass are not specified. The balanced equation for the given chemical reaction can be written as 3CsCl + K[tex]_3[/tex]PO[tex]_4[/tex]→ Cs[tex]_3[/tex] (PO[tex]_4[/tex]) + 3KCl.
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