The molarity of 150 mL solution containing 5g of copper (1) chlorate is 0.0051 M
How do i determine the molarity of the solution?We'll begin by obtaining the number of mole in 5 g of copper (i) chlorate. This is shown below:
Mass of copper (i) chlorate = 5 grams Molar mass of iodine = 147 g/molMole of copper (i) chlorate = ?Mole = mass / molar mass
Mole of copper (i) chlorate = 5 / 147
Mole of copper (i) chlorate = 0.034 mole
Now, we shall determine the molarity of the solution. Details below:
Mole of copper (i) chlorate = 0.034 moleVolume of solution = 150 mL = 150 / 1000 = 0.15 LMolarity of solution = ?Molarity of solution = mole / volume
Molarity of solution = 0.034 / 0.15
Molarity of solution = 0.0051 M
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Thermodynamic properties of ethanol, how much heat is released when 60g of ethanol cools from 70C to 43C
The negative sign indicates that heat is being released from the ethanol as it cools down. So, 3,950.4 joules of heat are released when 60g of ethanol cools from 70°C to 43°C.
To calculate heat released when 60g of ethanol cools from 70°C to 43°C, we can use the following equation:
Q = m × c × ΔT
First, we need to calculate the change in temperature:
ΔT = final temperature - initial temperature
ΔT = 43°C - 70°C
ΔT = -27°C
Note that the change in temperature is negative because the ethanol is cooling down.
Next, we can calculate the heat released:
Q = m × c × ΔT
Q = 60g × 2.44 J/g°C × (-27°C)
Q = -3,950.4 J
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Which experiment below is most likely to be part of a good demonstration of thermal equilibrium?
A. Bringing together two objects with different flammability levels.
B. Bringing together two objects with different densities.
C. Bringing together two objects with different opulence.
D. Bringing together two objects with different temperatures.
The experiment that will most likely be part of a good demonstration of thermal equilibrium is: D. Bringing together two objects with different temperatures.
Which will be a good example?Thermal equilibrium is a condition in which the temperature levels of two fluids or substances attain the same temperature. Let us say that a cup of ice-cold water is brought from the freezer to a warm environment.
Thermal equilibrium will be attained when there will be a transfer between the temperature condition of the cup of water and the environment. So, option D is a good example.
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A sample of ammonia gas has a volume of 3218 mL at 13°C and a pressure of 824 torr. What will the volume of the gas be in liters if the moles of gas and the temperature do not change but the pressure changes to 2.36 atm?
The final volume of the gas at a pressure of 2.36 atm is 1.188 L.
The first step is to convert the initial volume to liters and the initial pressure to atm:
V₁ = 3218 mL = 3.218 L
P₁ = 824 torr = 1.084 atm
Using the combined gas law equation: P₁V₁/T₁ = P₂V₂/T₂
We can solve for V₂, the final volume:
V₂ = (P₁V₁T₂) / (P₂T₁) = [(1.084 atm) x (3.218 L) x (286 K)] / [(2.36 atm) x (286 K)] = 1.188 L
As a result, the ultimate volume of the gas at 2.36 atm is 1.188 L.
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Imagine that you mix 25 g of water at 25 ºC with 25 g of water at 65 ºC. Predict the final temperature of the sample.
The final temperature of the mixture given that 25 g of water at 25 °C is mixed with 25 g of water at 65 °C, is 45 °C
How do i determine the final temperature of the mixture?The final temperature of the mixture can be obtained by calculating the equilibrium temperature of the mixture. This is shown below:
Mass of cold water (M) = 25 gTemperature of cold water (T) = 25 °CMass of warm water (Mᵥᵥ) = 25 gTemperature of warm water (Tᵥᵥ) = 65 °CEquilibrium temperature (Tₑ) =?Heat loss by warm water = Heat gain by cold water
MᵥᵥC(Tᵥᵥ - Tₑ) = MC(Tₑ - T)
Cancel out C
Mᵥᵥ(Tᵥᵥ - Tₑ) = M(Tₑ - T)
25× (65 - Tₑ) = 25 × (Tₑ - 25)
Cancel out 25
65 - Tₑ = Tₑ - 25
Collect like terms
65 + 25 = Tₑ + Tₑ
90 = 2Tₑ
Divide both side by 2
Tₑ = 90 / 2
Tₑ = 45 °C
Thus, we can conclude that the final temperature the mixture is 45 °C
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Give the structures of the free‑radical intermediates in the peroxide‑initiated reaction of HBr
with the following alkene. Include all lone‑pair electrons and unpaired electrons. Hint: the radicals do not coexist in the same mechanistic step.
The peroxide addition would yield a product that is different from the antiperoxide addition
What is the structure?Markovnikov's rule states that when a protic acid HX is added to an alkene, the acid hydrogen (H) forms a bond with the carbon atom that has the greatest number of hydrogen atoms, while the halide (X) group forms a bond with the carbon atom that has the fewest hydrogen atoms.
This can be summed up with the phrases "the rich get richer" and "the poor get poorer" in terms of hydrogen. This fundamental principle of alkene chemistry aids in predicting the results of addition reactions.
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Part 1(Picture 1):
Peptides isolated from rapeseed that may lower blood pressure have the following sequence of amino acids.
Part A
At physiological pH the N-terminus of an amino acid exists as the ammonium ion, and the C-terminus exists as the carboxylation ion.
Draw the structure of Arg-Ile-Tyr.
Draw the molecule on the canvas by choosing buttons from the Tools (for bonds and charges), Atoms, and Templates toolbars, including charges where needed.
Part 2(Picture 2):
Part A
What are the amino acids in the peptide?
Spell out the full names of the compounds. Enter your answers separated by a comma.
Part B
How would you name the dipeptide in the peptide?
Spell out the full name of the compound.
The structure of Arg-Ile-Tyr is given below:
What are Peptides?Peptides make up short chains of amino acids, which act as the fundamental units for building proteins. Within these chains, peptides usually consist of no more than 50 amino acids in contrast to proteins that are made up of significantly longer structures.
Found throughout various sources such as plants, animals, and bacteria, peptides play crucial roles in multiple biological processes including signaling, enzyme activity, and immune response.
Additionally, artificially synthesized peptides serve several purposes within the medicine, cosmetics, and food industries. Scientists are also exploring certain peptide's potential therapeutic advantages mainly pertaining to anti-inflammatory, antimicrobial, and anticancer activities.
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Use the bond energies given below to calculate the enthalpy change for the reaction, HCN(g) + 2 H₂(g) → CH3NH₂(g)
Bond Bond Energy (kJ/mol) Bond Bond Energy (kJ/mol)
H-H
432
C-H
413
C-N
305
615
CEN
891
391
O-158 kJ
+18 kJ
-590 kJ
+158 kJ
+133 kJ
C=N
N-H
The enthalpy change for the given reaction is 1344 kJ/mol.
First, we need to write the balanced chemical equation for the given reaction:
HCN(g) + 2 H2(g) → CH3NH2(g)
To calculate the enthalpy change (ΔH) for this reaction, we need to subtract the total energy of the reactants from the total energy of the products. We can do this by calculating the energy required to break the bonds in the reactants and the energy released when new bonds are formed in the products.
Reactants:
HCN(g): 1 C-N bond (305 kJ/mol) + 1 C-H bond (413 kJ/mol) + 1 N-H bond (391 kJ/mol) = 1109 kJ/mol
2 H2(g): 4 H-H bonds (4 x 432 kJ/mol) = 1728 kJ/mol
Total energy of reactants: 1109 kJ/mol + 1728 kJ/mol = 2837 kJ/mol
Products:
CH3NH2(g): 1 C-H bond (413 kJ/mol) + 3 C-N bonds (3 x 305 kJ/mol) + 7 H-H bonds (7 x 432 kJ/mol) = 4181 kJ/mol
Total energy of products: 4181 kJ/mol
ΔH = (total energy of products) - (total energy of reactants)
ΔH = 4181 kJ/mol - 2837 kJ/mol
ΔH = 1344 kJ/mol
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Question 1 of 30
What is the change in entropy (AS) when a solid substance decomposes and
produces gaseous products?
A. 1
B. Greater than 0
C. 0
D. Less than 0
SUBMIT
Greater than 0 is the change in entropy (AS) when a solid substance decomposes and produces gaseous products. The correct option is B.
The change in entropy (ΔS) is a measure of the degree of randomness or disorder in a system. When a solid substance decomposes and produces gaseous products, the number of particles (molecules or atoms) in the system increases, and the arrangement of the particles becomes more disordered. This results in an increase in entropy, which is greater than 0.
When a solid substance decomposes and produces gaseous products, the change in entropy (ΔS) is greater than 0. This is because the number of particles in the system increases, leading to an increase in disorder or randomness.
The entropy of a system is a measure of the degree of disorder, and it tends to increase in processes that lead to a greater dispersion of energy or matter. In the case of the decomposition of a solid substance into gaseous products, the transition from a more ordered solid state to a more disordered gas state leads to an increase in entropy.
This phenomenon is a manifestation of the second law of thermodynamics, which states that the entropy of a closed system tends to increase over time.
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Given the law of conservation of energy, what happens when a 200°C iron bar is placed in thermal contact with a 30°C block of wood?
When a 200°C iron bar is placed in thermal contact with a 30°C block of wood, energy leaves the iron bar and enters the wood until the temperatures are equal.
Law of conservation of energy states that the energy cannot be lost or formed but it can only be transformed from one form to another.
According to the given question, the block of wood is at a lower temperature than an iron bar. Hence, heat will flow from the iron bar to the block of wood until the temperatures of both are equal.
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Question 2 (1 point)
Which is true for water?
It is a compound
It is an element
It is a chemical reaction
It is a metal
Answer: A.) It is a compound
Explanation:
Water is an inorganic compound made of water molecules, which are made of oxygen and hydrogen atoms.
It is not an element because there is no such thing as a water atom.
Water is not a chemical reaction to anything.
Water is OBVIOUSLY not a metal.
Hope this helps :)
if two substance are at the same temperature, their enthalpy
Answer:
cannot be measure
Hope this helps :) !!!
1. Describe the gas laws using the example of air inside of a balloon.
2. Identify another real-life example or phenomenon that is explained by at least one of the gas laws.
The gas laws are Boyle's Law, Charles's Law, and Gay-Lussac's Law.
Description of the gas laws using the example of air inside of a balloon?The physical properties of gases can be comprehended through the gas laws that describe their response when exposed to dissimilar circumstances such as temperature fluctuations or changes in pressure or volume.
Among these principles are Boyle's Law, Charles's Law, and Gay-Lussac's Law whose application allows for better comprehension of gas dynamics.
To illustrate Boyle's law’s formulation- when subjected to constant temperature changes- there exists inverse proportionality between pressure and volume in gaseous compounds with reducing volumes resulting from elevated compression. The relationship between gas temperature and its accompanying volume at fixed pressure is defined by Charles's Law. As an illustration, heating up a balloon causes an expansion in internal air that leads to an increase in its physical size.
Similarly, cooling down the same balloon yields contraction through reduced temperature leading to decreased internal air volumes. Gay-Lussac's observation reveals a similar pattern where at fixed volumes; increasing temperature translates into increased pressures. An increase in solar radiation on a balloon can lead to high temperatures that consequently elevate its internal pressure, eventually leading to it enlarging in size.
Boyle's Law finds practical implementation in several household appliances, including pressure cookers. The pressure cooker's mechanism involves trapping steam within a sealed pot, which consequently raises the temperature and pressure inside the container. This increase in temperature conforms to Boyle's law, that states an increase in pressure of gases results in enhanced temperatures as well. The heightened levels of pressure within the closed pot allow for quicker cooking times of food substances compared to standard pots.
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please provide explanation!! thank you in advance!!
If a mixture of gases reaches equilibrium with 0.0113M of H² and CO², the equilibrium concentration of the product is 0.0113 M. Hence, option A is correct.
The equilibrium constant, Keq, is given as:
[tex]\rm K_{eq} = \dfrac{[CO][H_2O]}{ [H_2][CO_2]} \\ \\[/tex]
= 0.16
At equilibrium, let the concentrations of CO, H₂O, and H₂, CO₂ be [CO], [H₂O], [H₂], and [CO₂].
Initial concentration of H₂ and CO₂ = 0.0113
Change in concentration = +X and -X
At equilibrium, for CO = 0-X, H₂O = X,H₂O = 0.0113-X and CO₂=0.0113-X
x² = 0.001207
x = 0.0348 M
Therefore, the equilibrium concentrations of the products are:
[CO] = 0 - x = -0.0348 M
[H₂O] = x = 0.0348 M
[H₂] = 0.0113 - x = 0.0113 - 0.0348 = 0.0225 M
[CO₂] = 0.0113 - x = 0.0113 - 0.0348 = 0.0225 M
Since [CO] is negative, we can conclude that the equilibrium lies to the left, indicating that the reactants are favored over the products.
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a chemistry student collected 0.032l of h2gas at 1.1 atm pressure and 24 C using the following chemical reaction how man grams of magnesium must have reacted.
Mg(s) + HCL (aq) to H2 9g) + MgCL2 (aq)
In order to calculate the number of grams of magnesium reacted, we must first calculate the moles of hydrogen gas produced. The ideal gas law can be used to calculate the moles of a gas, given the pressure, temperature, and volume of the gas.
The ideal gas law is PV=nRT, where P is pressure, V is volume, n is moles, R is the ideal gas constant, and T is temperature. By calculating the given values, we get 0.032L*1.1atm/24C*0.08206L*atm/mol*K=0.0077 mol.
Since 1 mole of hydrogen gas is produced for every mole of magnesium that reacts, 0.0077 moles of magnesium have reacted.
Finally, to calculate the grams of magnesium, we multiply the moles of magnesium by the molar mass of magnesium, which is 24.31 g/mol. This gives us 0.0077 mol*24.31 g/mol = 0.186 grams of magnesium.
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Can someone help me please. Use your knowledge of waves and the electromagnetic spectra to explain how electromagnetic radiation affects molecules? Be sure to include 3 specific examples
Malic Acid is found in?
Hydrochloric Acid is found in?
Potassium Hydroxide is found in?
Sodium Hydroxide is found in?
Answer:
Malic Acid is found in Apples.
Hydrochloric Acid is found in Our Stomach.
Potassium Hydroxide is found in Soaps and Bleaches.
Sodium Hydroxide is found in Household Cleaners.
Explanation:
IF MY ANSWER IS HELPFUL THEN PLEASE RATE IT, LIKE IT, FOLLOW ME AND GIVE ME A BRAINLIEST...PLEASE.
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Answer:
Its wrong the question is wrong you should delete it
Prescription number
Prescription #1
Prescription #2
Prescription #3
mLs needed of soda mLs needed of solution
Most people will take prescription medicines to prevent, treat or to manage the illness. The effective use of medicines can help us to stay healthy for longer. The prescription number is often shown as ''Rx#''.
The prescription number is defined as the number you will call to place the refill. Although a pharmacist can look up your prescription in the computer, the refill process will go a lot faster if you have this number handy as it is the short code for your prescription.
Reading the label correctly can help the patients to take right amount of the medicine and that it won't negatively react with other medications.
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A flashbulb of volume 1.70 mL contains O2(g) at a pressure of 2.30 atm and a temperature of 29.0 °C. How many grams of O2(g) does the flashbulb contain?
The flashbulb contains approximately 0.00291 grams of O₂(g).
The ideal gas law relates the pressure (P), volume (V), temperature (T), and amount of gas (n) through the equation PV = nRT, where R is the universal gas constant. Rearranging this equation to solve for n gives n = PV/RT.
To find the amount of O₂(g) in the flashbulb, we first need to convert the volume to liters and the temperature to Kelvin:
V = 1.70 mL = 0.00170 L
T = 29.0 °C + 273.15 = 302.15 K
We can then use the ideal gas law to calculate the amount of O₂(g):
n = PV/RT
n = (2.30 atm)(0.00170 L)/(0.0821 L·atm/mol·K)(302.15 K)
n = 9.10 × 10⁻⁵ mol O₂
Finally, we can convert from moles to grams using the molar mass of O₂:
m = n × M
m = (9.10 × 10⁻⁵ mol)(32.00 g/mol)
m = 0.00291 g O₂
As a result, the flashbulb contains around 0.00291 grams of O₂(g).
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How has the increase in human population impacted earths resources?
Answer:
The increase in human population has impacted Earth's resources in several major ways:
• Increased demand for food, water, and shelter. A larger population requires massive increases in food, water, and living spaces which strains natural resources and infrastructure. Producing enough food alone is a significant challenge.
• Accelerated consumption of resources. As population grows, the use of resources like forests, minerals, fossil fuels also increases rapidly to meet demands. This accelerated depletion of resources threatens long term sustainability.
• Increased pollution. A bigger population produces more pollution, waste, emissions, and environmental degradation as a byproduct of energy usage, transportation, industrialization, and land/resource use. This pollution harms ecosystems and contaminates the air, water and land.
• Biodiversity loss. As natural habitats are destroyed or fragmented to enable more human use, many plant and animal species lose their homes and face a higher risk of extinction. Tropical rainforests, in particular, have been heavily impacted.
• Inequality. While resources are limited, population growth often exacerbates inequality in access to and distribution of resources. Poor or developing regions typically have the highest populations but fewest resources per capita.
• Migration and conflict. Shortages of resources in certain areas or regions may lead to migration, economic troubles, social unrest, and in some cases even resource conflicts or wars.
• Slower development. Extremely rapid population growth rates make it difficult for governments, organizations and societies to effectively manage development, improve standards of living, advance technology, and make other progress at an optimal pace. Slower, more stabilized population growth may enable a higher overall quality of life.
So in many profound and troubling ways, increased population size has created immense pressures on Earth's resources and made it more difficult to meet present and future needs in a sustainable manner. Most experts agree that slowing population growth is critical to ensuring resource security for future generations.
Explanation:
3.
(08.04 LC)
Which of the following is a base? (3 points)
AgO
Ca(OH)2
HF
NaCl
The compound that is a base from the given list is Ca(OH)2. Option 2.
What is a base?
A base is a chemical substance that produces hydroxyl ions as the only negative ion in aqueous solutions.
Ca(OH)2 is calcium hydroxide, which is a chemical compound consisting of one calcium ion (Ca2+) and two hydroxide ions (OH-).
It is classified as a base because, when it dissolves in water, it produces hydroxide ions that can accept protons (H+) from acids in a process known as a neutralization reaction.
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The concentration of an aqueous solution of NaCl is 15% by mass. How much NaCl is in a 500 gram sample of the solution?
a. 425 grams
b. 750 grams
c. 75 grams
d. 330 grams
Answer:
To solve this problem, we can use the definition of percent concentration by mass:
percent concentration = (mass of solute ÷ mass of solution) x 100%
We know that the percent concentration of NaCl in the solution is 15% by mass, and we have a 500 gram sample of the solution. Let's assume that the mass of NaCl in the sample is x grams.
Using the percent concentration formula, we can write:
15% = (x ÷ 500) x 100%
Simplifying this equation, we get:
x = (15 ÷ 100) x 500 = 75 grams
Therefore, there are 75 grams of NaCl in a 500 gram sample of the solution.
The correct answer is c. 75 grams.
When 7.59 grams of sodium hydroxide (NaOH) are dissolved in 80.0 grams of water at 25.0 °C in an insulated container, the temperature of the water increases to 48.0 °C. Assuming that the specific heat of the solution is 4.184 J/(g °C) and that no heat is gained or lost by the container, what is the ∆H of solution of NaOH in kJ/mol?
The ∆H of solution of NaOH is 46.8 kJ/mol.
First, we need to calculate the amount of heat absorbed by the solution:
q = m × c × ∆T
where q is the heat absorbed (in Joules), m is the mass of the solution (in grams), c is the specific heat capacity of the solution (in J/(g °C)), and ∆T is the change in temperature (in °C).
In this case, the mass of the solution is the sum of the mass of NaOH and the mass of water:
m = 7.59 g + 80.0 g = 87.59 g
The change in temperature is:
∆T = 48.0 °C - 25.0 °C = 23.0 °C
Substituting the values, we get:
q = 87.59 g × 4.184 J/(g °C) × 23.0 °C = 8,878 J
Next, we need to convert the heat absorbed into the enthalpy change of solution (∆H). The enthalpy change of solution is the heat absorbed per mole of solute. The number of moles of NaOH is:
n = m/M
where M is the molar mass of NaOH, which is 40.00 g/mol.
n = 7.59 g / 40.00 g/mol = 0.1898 mol
Therefore, the enthalpy change of solution is:
∆H = q/n = 8,878 J / 0.1898 mol = 46,780 J/mol = 46.78 kJ/mol
The H of a NaOH solution, rounded to three significant numbers, is 46.8 kJ/mol.
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If a material is ductile, it is mostly likely a
nonmetal
metal
metalloid
Gas
Answer:
Explanation:
Which of the following is most likely to be ductile?
a. Metal
b. Nonmetal
c. Metalloid
d. Gas
Answer: a. MetalMetal
Julian put a heater with a power of 30 W into a block of copper and recorded the temperature of the block every minute for ten minutes. His results are below. How much energy had been transferred after 2 minutes?
The amount of energy transferred after 2 minutes is 3600 Joules.
We can use the formula for thermal energy to calculate the amount of energy transferred after 2 minutes:
Q = P * t
where Q is the thermal energy transferred (in Joules), P is the power of the heater (in Watts), and t is the time (in seconds).
We can convert the power from Watts to Joules/second:
30 W = 30 J/s
We can also convert the time from minutes to seconds:
2 minutes = 2 * 60 seconds = 120 seconds
Now we can substitute these values into the formula:
Q = P * t
Q = 30 J/s * 120 s
Q = 3600 J
Therefore, the amount of energy transferred after 2 minutes is 3600 Joules.
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Answer:
Explanation:
3600 Joules.
How many grams of magnesium sulfate would be produced from the following reaction if
176 kJ of energy is absorbed by the reaction.
Alz (S04)3 + 3 Mgl-> 2 All+ 3Mg(SO4) deltaH = +722 kJ
The mass (in grams) of magnesium sulfate, MgSO₄ that would be produced from the reaction is 87.76 g
How do i determine the mass of magnesium sulfate, MgSO₄ produced?The mass of magnesium sulfate, MgSO₄ produced can be obtain as illustrated below:
Al₂(SO₄)₃ + 3Mg -> 2Al + 3MgSO₄ ΔH = +722 KJ
Molar mass of MgSO₄ = 120 g/molMass of MgSO₄ from the balanced equation = 3 × 120 = 360 gFrom the balanced equation above,
When 722 KJ of heat were absorbed, 360 g of MgSO₄ were produced
Therefore,
When 176 KJ of heat is absorbed = (176 × 360) / 722 = 87.76 g of MgSO₄ will be produce
Thus, the mass of MgSO₄ produced is 87.76 g
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Consider this reaction taking place in a closed 2 liter container:
2SO2(g) + O2(g) → 2SO3(g)
If the volume of the container is decreased to 1 liter, what will happen to the equilibrium of the reaction?
Question 16 options:
It will shift left.
It will remain constant.
It will shift right.
It will decrease by half.
To make a 4 cup pot of green tea, one must heat the water to the boiling point at standard pressure. If the pot contains 680 grams of water, and the temperature at the tap is 20.0°C, how much heat must be absorbed by the water?
1. Define enthalpy, entropy, and free energy. What do they have in common? How are they different from one another? You may include an image to support your answer.
Enthalpy (H), entropy (S), and free energy (G) are thermodynamic properties that describe the behavior of a system.
Enthalpy (H) is the total heat content of a system, including both internal energy and the energy required to create a system's volume and pressure. It is often used to describe heat transfer in chemical reactions. Entropy (S) is a measure of the disorder or randomness in a system. It reflects the number of ways in which the molecules of a system can be arranged, and it generally increases with temperature.
Free energy (G) is a measure of the energy available to do work in a system. It accounts for the enthalpy and entropy of a system and can be used to predict whether a reaction is spontaneous or non-spontaneous. All three properties are related to the state of a system and can be used to predict the behavior of a reaction. Enthalpy and entropy are related by the Gibbs-Helmholtz equation, and free energy is related to both enthalpy and entropy by the Gibbs free energy equation.
While all three properties relate to the behavior of a system, they differ in terms of what they measure and how they are used in calculations. Enthalpy is concerned with the total energy content of a system, while entropy measures the degree of disorder. Free energy is a measure of the energy available to do work in a system and can predict whether a reaction will occur spontaneously.
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A 25 ml sample of 1.2 molar potassium chloride mix with 15 ml of 0.90 molar barium nitrate solution and precipitate reaction occurs twice case LX + BA no3s aqueous bacl2 solid + 2ks what is the practical yield percentage yield mass is 2.45 g
Le Chatelier's Principle states that when a reaction that was in equilibrium is stressed through the change in concentration, change in temperature or change in pressure, then the chemical reaction will:
a. adjust to re-reach equilibrium
b. create only products
c. become no longer in equilibrium
d. shut down entirely
Answer:
a. adjust to re-reach equilibrium
Explanation:
Le Chatelier's Principle can be logically understood based on the concept of equilibrium in chemical reactions. When a chemical reaction is in equilibrium, it means that the rate of the forward reaction (from reactants to products) is equal to the rate of the reverse reaction (from products to reactants), and the concentrations of reactants and products remain constant over time.
When an equilibrium reaction is subjected to a stress, such as a change in concentration, temperature, or pressure, it disrupts the original balance between reactants and products. In response to this stress, Le Chatelier's Principle predicts that the system will adjust its position of equilibrium to counteract the change and restore balance.
For example, if the concentration of one of the reactants is increased, the system will shift the equilibrium position to the side that consumes that reactant in order to reduce its concentration and restore the original balance. Similarly, if the temperature of the system is increased, the system will shift the equilibrium position in the endothermic or exothermic direction to counteract the change in temperature. If the pressure of the system is increased, the system will shift the equilibrium position to the side with fewer moles of gas in order to reduce the pressure.
In other words, Le Chatelier's Principle states that a system at equilibrium will adjust its position of equilibrium in response to external stresses in order to re-establish a new equilibrium and restore balance between reactants and products. This logical understanding helps to explain why option a, "adjust to re-reach equilibrium," is the correct answer.