Answer:
4.65 meters
Explanation:
To convert 465 cm to m, you would need to divide 465 by 100, which equals 4.65 m.
1. 8g of magnesium were added to 60cm³ of 2.1M aluminium sulphate solution in a beaker and stirred gently with a thermometer. The temperature of the mixture rose from 25.0°C to 32.0°C. (Specific heat capacity = 4.2KJKg"K"). Apart from temperature change, state any other observation made. be observed as the displacement (b) (c) Effervescence may (1 mark) hydrogen gou u дей Produced during reaction Calculate the molar enthalpy of displacement of aluminium by the magnesium.(2 marks) Give the thermo ionic equation for the reaction. (1 mark)
The thermo ionic equation for the reaction is:
3Mg(s) + 2Al₂(SO₄)₃(aq) → 3MgSO₄(aq) + 2Al(s)
Step by step explanationFrom the given information, we can calculate the amount of heat energy released during the displacement reaction of aluminium by magnesium:
Heat energy released = mass of solution × specific heat capacity × temperature change
The mass of the solution can be calculated as follows:
mass of solution = volume of solution × density of solution
= 60 cm³ × 1.04 g/cm³
= 62.4 g
The moles of aluminium sulphate in the solution can be calculated as follows:
moles of Al₂(SO₄)₃ = molarity × volume of solution
= 2.1 mol/L × 0.06 L
= 0.126 mol
Since the reaction is 3Mg + 2Al₂(SO₄)₃ → 3MgSO₄ + 2Al, we know that 2 moles of aluminium are displaced by 3 moles of magnesium. Therefore, the moles of magnesium that reacted can be calculated as follows:
moles of Mg = (0.126 mol Al₂(SO₄)₃ ÷ 2) × (3 ÷ 2) = 0.189 mol
The molar enthalpy change can be calculated as follows:
ΔH = heat energy released ÷ moles of Mg
= (62.4 g × 4.2 J/gK × 7 K) ÷ 0.189 mol
= -583.6 kJ/mol
(note the negative sign indicating an exothermic reaction)
Apart from the temperature change, effervescence may be observed due to the production of hydrogen gas.
The thermo ionic equation for the reaction is:
3Mg(s) + 2Al₂(SO₄)₃(aq) → 3MgSO₄(aq) + 2Al(s)
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describe the processes by which energy stored in nadh molecules is transferred to atp by oxidative phosphorylation
The energy stored in NADH molecules is transferred to ATP by oxidative phosphorylation through a series of processes involving the Electron Transport Chain, the creation of a proton gradient, and ATP synthesis via chemiosmosis.
What are the process involved in Oxidative Phosphorylation?
1. Electron Transport Chain (ETC): The first step in oxidative phosphorylation involves the Electron Transport Chain, which is a series of protein complexes located in the inner mitochondrial membrane. NADH molecules transfer their high-energy electrons to the first complex in the ETC, known as Complex I.
2. Transfer of electrons: As electrons move through the ETC, they are transferred from one complex to another (from Complex I to Complex II, Complex II to Complex III, and Complex III to Complex IV). During this transfer, energy is released, which is used to pump hydrogen ions (protons) across the inner mitochondrial membrane from the matrix into the intermembrane space.
3. Proton gradient: The pumping of protons across the inner mitochondrial membrane creates an electrochemical gradient, which is also known as a proton gradient. This gradient represents a form of potential energy.
4. ATP synthase: As protons flow back into the mitochondrial matrix through a protein complex called ATP synthase, the energy from the proton gradient is harnessed to synthesize ATP from ADP (adenosine diphosphate) and inorganic phosphate (Pi). This process is known as chemiosmosis.
5. Final electron acceptor: The electrons reach the end of the ETC and are transferred to the final electron acceptor, which is molecular oxygen ([tex]O_{2}[/tex]). This transfer results in the formation of water ([tex]H_{2}O[/tex]), as oxygen combines with protons from the matrix.
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an example of a chemical change in matter is a(n) a twig breaking b egg frying c ice cube melting d plate cracking
The given options (a) Twig breaking, (b) Egg frying, (c) Ice cube melting and (d) Plate cracking represents physical changes that take place in matter. Therefore, option (b) Egg frying represents an example of a chemical change in matter.
Chemical change in matter means that matter undergoes a chemical reaction and transforms into a new substance. During a chemical change, chemical bonds are broken, atoms rearrange themselves to form new chemical bonds, and new substances are formed. So, when a chemical change takes place, the composition of matter is altered, and it becomes something different.
Examples of chemical changes in matter include: Rusting of iron, Burning of wood, Tarnishing of silver, Digestion of food, Respiration, Combustion of fossil fuels, Photosynthesis, Fermentation, Rotting of food and Electrolysis.
The process of Egg frying: Egg frying represents a chemical change in matter. When the egg is exposed to heat, its protein molecules are broken down, and the long chains of proteins are uncoiled, and they bond with each other to form a solid mass. This is a permanent change because, after frying, the egg cannot return to its original form. Therefore, egg frying represents a chemical change in matter.
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A saturated solution of potassium nitrate is prepared at 60°C in 100 g of water. How many grams of
Would it precipitate the potassium nitrate of the solution if it cooled to 30°C?
Certain potassium nitrate solutes precipitate when a saturated potassium nitrate solution is cooled.
What temperature does potassium nitrate KNO3 dissolve at?90 percent sodium nitrate dissolves in 100 grams of liquid at 30 degrees Celsius. 150g of potassium nitrate (KNO) is added to 100g of water, heated until the solute dissolves, and then cooled to 55 to create a supersaturated solution.
What transpires after cooling potassium nitrate?With a temperature drop, sodium nitrate becomes less soluble. As a result, extra potassium nitrate crystallises when a saturation potassium nitrate solution is cooled.
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8.
7.
Calcium phosphate is found widely in nature, e.g. in bones and in the leaves of plants.
The formula for the phosphate ion is PO. Write the formula for calcium phosphate.
Boron fluoride reacts with ammonia, NH3, to make the compound shown in the
following equation.
BF3 + NH3
(i) Name the type of bond formed between N and B.
F
F
F-
F
F
F-B-N-H
(ii) Suggest a value for the F-B-F bond angle in this molecule.
Bond angle.
(iii) Explain your answer to part (ii).
F-B-N-H
H
H
H
H
[1]
[1]
[1]
[1]
******
Answer:
The formula for calcium phosphate is Ca3(PO4)2.
(i) The type of bond formed between N and B is a coordinate covalent bond or a dative bond. This is because the lone pair of electrons on the nitrogen atom is donated to the boron atom to form a bond.
(ii) The F-B-F bond angle in this molecule is expected to be approximately 120 degrees.
(iii) This is because the molecule has a trigonal planar geometry, with the boron atom at the center and three fluorine atoms at the corners of an equilateral triangle. The lone pair of electrons on the nitrogen atom is also located in the same plane as the three fluorine atoms, and it occupies one of the corners of the trigonal planar arrangement. Therefore, the F-B-F bond angle is expected to be approximately 120 degrees, which is the ideal bond angle for a trigonal planar geometry.
A sample of uranium with Ar = 237.9, contains the three isotopes 234U, 235U and 238U.
Calculate the percentage abundance for the remaining two isotopes, given that the
percentage abundance of 234U is 0.006%. Give your answers to 3 decimal places.
The percentage abundance of 235U is 0.720%, and the percentage abundance of 238U is 99.274%, given that the percentage abundance of 234U is 0.006%. These values can be calculated by subtracting the percentage abundance of 234U from 100.
What is the significance of uranium in nuclear energy?Uranium is important in nuclear energy because it is a naturally occurring radioactive element that can undergo nuclear fission, which releases a significant amount of energy. Nuclear power facilities can use this energy to produce electricity.
What are the risks associated with uranium mining?Uranium mining can pose a variety of environmental and health risks. The mining process can generate large amounts of waste rock and tailings that can contaminate soil and water with radioactive materials. Exposure to these materials can increase the risk of cancer and other health problems.
Additionally, the transport and storage of uranium can pose a risk of accidental release, which can have significant environmental and health impacts.
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gaseous butane ch3ch22ch3 reacts with gaseous oxygen gas o2 to produce gaseous carbon dioxide co2 and gaseous water h2o. what is the theoretical yield of water formed from the reaction of 2.91g of butane and 13.5g of oxygen gas? be sure your answer has the correct number of significant digits in it.
The balanced chemical equation for the reaction between butane and oxygen to form carbon dioxide and water is shown below.2 C4H10(g) + 13 O2(g) → 8 CO2(g) + 10 H2O(g)We need to calculate the theoretical yield of water formed from the reaction of 2.91 g of butane and 13.5 g of oxygen gas.
To do this, we need to determine which of the two reactants is limiting and then use stoichiometry to calculate the amount of water produced. Butane reacts with oxygen in a ratio of 2:13. Therefore, to calculate the amount of oxygen needed to react with 2.91 g of butane, we use the following calculation: moles of butane = mass / molar mass = 2.91 g / 58.12 g/mol = 0.05 mol The moles of oxygen required = 0.05 mol × (13 mol of O2 / 2 mol of butane) = 0.325 mol So, the limiting reactant is oxygen because there is less of it than required. Using the stoichiometric ratio of the balanced chemical equation, we know that 10 mol of water is produced for every 13 mol of oxygen consumed.
Therefore, the number of moles of water produced can be calculated as follows: number of moles of water = 0.325 mol × (10 mol of H2O / 13 mol of O2) = 0.25 mol The mass of water produced can be calculated using its molar mass: mass of water = number of moles × molar mass = 0.25 mol × 18.02 g/mol = 4.505 g The theoretical yield of water formed from the reaction of 2.91 g of butane and 13.5 g of oxygen gas is 4.505 g of water.
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At standard temperature and pressure, a given sample of water vapor occupies a volume of 2.80 L. How many hydrogen atoms are present in the container?
Explanation:
To determine the number of hydrogen atoms in the container, we need to know the number of water molecules present in the container.
At standard temperature and pressure (STP), which is defined as a temperature of 273.15 K and a pressure of 1 atmosphere (atm), one mole of any gas occupies a volume of 22.4 liters. Therefore, the number of moles of water vapor present in the container can be calculated as:
n = V/22.4
where V is the volume of the container in liters. Substituting the given value, we get:
n = 2.80/22.4 = 0.125
So, there are 0.125 moles of water vapor in the container.
Now, to determine the number of hydrogen atoms present in the container, we need to know the number of water molecules in the container, since each water molecule contains two hydrogen atoms. The number of water molecules can be calculated as:
N = n * N_A
where N_A is Avogadro's number, which is equal to 6.022 x 10^23 molecules per mole. Substituting the values, we get:
N = 0.125 * 6.022 x 10^23 = 7.528 x 10^22
So, there are 7.528 x 10^22 water molecules in the container, and since each water molecule contains 2 hydrogen atoms, the total number of hydrogen atoms in the container is:
2 * N = 2 * 7.528 x 10^22 = 1.506 x 10^23
Therefore, there are 1.506 x 10^23 hydrogen atoms present in the container.
Read the passage and answer the next two questions.
Two students want to model thermal equilibrium. For this experiment, they will be
observing what happens when they mix two samples of water at different
temperatures. The students use the following procedure for the experiment.
Experiment 1 exhibiting thermal equilibrium
Step 1: Fill beaker A with 100 mL water and heat it using a Bunsen burner until
the thermometer measures 50°C. Record data.
Step 2: Fill beaker B with 100 mL of water at 20°C. Record data.
Step 3: Transfer the water from beaker A into beaker B.
Step 4: Record the temperature of the combined water sample.
10.The final temperature of the combined water from beakers A and B is 35°C.
Describe what happened in terms of kinetic energy of the particles when samples
A and B were combined.
11. The experiment modeled how two substances with varying temperatures will eventually reach thermal equilibrium on a macroscopic scale. Which statement best supports thermal equilibrium on a microscopic scale?
A. Beaker A has molecules of higher kinetic energy. These molecules collide with molecules from beaker B and transfer some of their energy. Energy is transferred until the average potential energy of the molecules from both samples are the same.
B. The molecules in beaker A are warmer than in beaker B, but both beakers have the same kinetic energy. Mixing the samples reduces the number of collisions in the samples.
C. Beaker A has molecules of lower kinetic energy. These molecules collide with molecules from beaker B and absorb energy until the average kinetic energy of the molecules from both samples are the same.
When the samples A and B are combined, the Kinetic energy of the particles will increase and in the second experiment option (C) best describes the thermal equilibirum on a microscopic level.
What is kinetic energy?Kinetic energy, which may be seen in the movement of an item or subatomic particle, is the energy of motion. Kinetic energy is present in every particle and moving object. Kinetic energy is a type of power that a moving object or particle possesses. An item accumulates kinetic energy when work, which involves the transfer of energy, is done on it by exerting a net force. A moving object or particle has kinetic energy, which depends on both its mass and its rate of motion. The type of motion can be vibration, rotation on an axis, translation (or travel along a path from one place to another), or any combination of these.
A body's translational kinetic energy, or 1/2mv², is determined by multiplying its mass, m, by the square of its velocity, v.
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Answer:
When samples A and B were combined, the kinetic energy of the particles transferred from the particles with higher kinetic energy (from beaker A) to the particles with lower kinetic energy (from beaker B). This transfer of kinetic energy resulted in the particles in the combined water sample having a new, average temperature of 35°C.
Explanation :
The statement that best supports thermal equilibrium on a microscopic scale is: A. Beaker A has molecules of higher kinetic energy. These molecules collide with molecules from beaker B and transfer some of their energy. Energy is transferred until the average potential energy of the molecules from both samples are the same. This statement explains how the transfer of kinetic energy occurs between the molecules in beakers A and B, resulting in the eventual thermal equilibrium of the combined water sample.
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According to the kinetic molecular theory, which statement best describes the motion of gas particles?
Gas particles move together in the same direction.
Gas particles are stationary.
Gas particles are only in motion when a gas is heated.
Gas particles are in continuous, random motion.
Gas particles are constantly moving quickly and randomly. Elastic collisions occur when gas particles collide with one another and with the container walls.
Which of the following statements most accurately sums up gas particle collisions according to the kinetic molecular theory?According to the kinetic molecular theory, gas particle collisions are completely elastic. When two objects collide in an elastic collision, their combined kinetic energy is preserved during the collision.
How would you explain gas particle motions using the kinetic molecular theory?According to the kinetic molecular theory, collisions between gas particles occur in perfect elastic motion and are always in motion. Boyle's and Charles's laws can both be explained by the kinetic molecular theory.
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a solute with a mass of 76.4 g needs to be dissolved in water to make a solution with a 4.24% mass fraction. how much water is needed?
1804.7 g of water is needed achieve 4.24% mass fraction.
To make a solution with a mass fraction of 4.24 %, we need to dissolve 76.4 g of the solute in an appropriate amount of water.
To calculate the amount of water needed, use the following equation:
Mass fraction (%) = (Mass of solute / Mass of solution) x 100
Therefore, Mass of solution = (Mass of solute x 100) / Mass fraction (%)
Plugging in the given values,
we get: Mass of solution = (76.4 g x 100) / 4.24 = 1801.88 g
This means that 1804.7 g of water is needed to make a solution with a 4.24% mass fraction, using 76.4 g of the solute.
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What is the balanced equation for ammonia gas decomposes to form hydrogen gas and nitrogen gas?
what is the sulfate ion concentration of the resulting solution when 75.0 ml of 1.50 m cuso4 and 50.0 ml of 1.00 m co2(so4)3 are mixed together?
To determine the sulfate ion concentration of the resulting solution, we first need to calculate the moles of sulfate ions in each solution, and then add them together.
For the CuSO4 solution:
moles of CuSO4 = concentration x volume in liters
moles of CuSO4 = 1.50 mol/L x 0.075 L
moles of CuSO4 = 0.1125 mol
Since there is 1 mole of sulfate ion for every mole of CuSO4, the moles of sulfate ion in the CuSO4 solution is also 0.1125 mol.
For the Co2(SO4)3 solution:
moles of Co2(SO4)3 = concentration x volume in liters
moles of Co2(SO4)3 = 1.00 mol/L x 0.050 L
moles of Co2(SO4)3 = 0.050 mol
Since there are 3 moles of sulfate ion for every mole of Co2(SO4)3, the moles of sulfate ion in the Co2(SO4)3 solution is 0.050 mol x 3 = 0.150 mol.
Now, we can add the moles of sulfate ions from each solution together to get the total moles of sulfate ions in the resulting solution:
total moles of sulfate ion = moles of CuSO4 + moles of Co2(SO4)3
total moles of sulfate ion = 0.1125 mol + 0.150 mol
total moles of sulfate ion = 0.2625 mol
To find the sulfate ion concentration of the resulting solution, we need to divide the total moles of sulfate ion by the total volume of the resulting solution, which is the sum of the volumes of the two solutions:
total volume = 75.0 mL + 50.0 mL
total volume = 125.0 mL or 0.125 L
sulfate ion concentration = total moles of sulfate ion / total volume
sulfate ion concentration = 0.2625 mol / 0.125 L
sulfate ion concentration = 2.10 mol/L
Therefore, the sulfate ion concentration of the resulting solution is 2.10 mol/L.
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I need to know how to graph this
Answer:
bar graph
Explanation:
because of the fact that the data is shown in such a way that a line graph would not work, you need to graph the data for each individual time
what idea states that the volume of one mole of h2 gas at stp is assumed to be the volume of one mole of any gas at stp
Avogadro's Law is the notion that one mole of any gas has the same volume at STP (Standard Temperature and Pressure). identical volumes of gases at the same pressure and temperature have an identical number of molecules, according to Avogadro's Law.
This means that at STP, a mole of any gas will take up the same amount of space—22.4 liters—as another mole.
Avogadro's Law may therefore be used to determine the volume of hydrogen gas at STP, which is 22.4 liters for each mole. This is due to Avogadro's Law, which states that one mole of any gas at STP has the same number of particles (6.022 x 1023) and takes up the same amount of space (22.4 liters).
Avogadro's Law
A fundamental gas law called Avogadro's Law describes the correlation between a gas's volume and the number of particles it contains. identical volumes of gases at the same pressure and temperature have an identical number of molecules, according to this statement.
This indicates that one mole of any gas will have the same volume as 22.4 liters at standard temperature and pressure (STP), which is defined as 0°C (273.15 K) and 1 atmosphere (atm) of pressure. A mole, or 6.022 x 1023 particles, or Avogadro's number, is a unit of measurement that denotes a certain number of particles.
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which band would not appear in the product that was in the starting material in the addition of br2 to 2-pentene? group of answer choices 1680-1620 3400-3600 3000-2850 3100-3000 2260-2200 1800-1650
The C=C stretching vibration at 1680-1620 cm-1, where the double bond in 2-pentene is changed to a single bond in 1,2-dibromopentane, would not show the product that was in the beginning material.
What vibrational frequency does C-C have?The C triple C vibrations are therefore noticed at substantially higher frequencies in the range of 2300 to 2050 cm1, whilst a C-C stretching vibration occurs between 1300-800 cm1 and a C=C stretching vibration occurs between 1700 and 1500 cm1.
In what parts of IR do C-C bonds appear?As C-C bonds are typically nonpolar, they rarely manifest as peaks in the IR spectra. Since they are not extremely polar, C-H bonds do not produce prominent peaks in the IR spectra.
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calculate the final pressure, in atm, after 9.06 g of krypton reacts with 10.0 g of fluorine at 300 k in a 10.0-l container.
The final pressure, in atm, after 9.06 g of krypton reacts with 10.0 g of fluorine at 300 k in a 10.0-l container is 0.935 atm.
Given the mass of krypton gas = 9.06g
the mass of fluorine gas = 10g
The temperature of gas = 300K
The volume of container = 10L
Let the final pressure = P
The balanced chemical equation for the reaction of krypton with fluorine is: [tex]Kr + 2F2 -- > KrF2 + F2[/tex]
We know the Molar mass of krypton = 83.798 g/mol
We know the Molar mass of fluorine = 18.998 g/mol
Moles of krypton = 9.06 g / 83.798 g/mol = 0.108 mol
Moles of fluorine = 10.0 g / 18.998 g/mol = 0.526 mol
Then, use the ideal gas law to calculate the initial pressure:
PV = nRT
[tex]P = (0.108 mol + 0.526 mol) * 0.082 * 300 K / 10.0 L[/tex]
P = 0.935 atm
Since the reactants are completely consumed, the total number of moles of gas in the container after the reaction will remain the same as before the reaction. Therefore, the pressure of the container after the reaction will also be the same as before the reaction.
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what part of the experiment design in part i explains why the pattern changed to a constant relationship between the variables at higher values for mass of cuso4?
In the experiment design in part I, the part that explains why the pattern changed to a constant relationship between the variables at higher values for mass of CuSO4 is the controlled variable.
The controlled variable is the variable that stays the same throughout the experiment. It is also known as a constant variable, and it is not allowed to change. This is done so that the effects of the independent variable on the dependent variable can be observed.
The other variables in the experiment are independent variables and dependent variables. The independent variable is the variable that is changed in the experiment. The dependent variable is the variable that is being measured. In the experiment, the independent variable is the mass of CuSO4. The dependent variable is the absorbance value. The controlled variable is the concentration of CuSO4, the volume of the CuSO4 solution, the type of the solution, the type of the cuvette, and the wavelength used.
By keeping the concentration, volume, solution type, cuvette type, and wavelength used constant, the effects of these variables on the absorbance value can be eliminated. Therefore, any changes in the absorbance value are only caused by the changes in the independent variable, which is the mass of CuSO4.
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Please help!
Magnesium is the limiting reactant in this experiment. Calculate the theoretical yield of MgO for each trial.
Trial 1:
Trial 2:
Data
Mass of empty crucible with lid
Trial 1: 26. 688
Trial 2: 26. 681
Mass of Mg metal, crucible, and lid
Trial 1: 26. 994
Trial:2 26. 985
Mass of MgO, crucible, and lid
Trial 1: 27. 188
Trial 2: 27. 180
The theoretical yield of MgO for Trial 1 is 0.51 g and 0.5 g for trial 2
How to calculate the theoretical yield of MgO for both trials?The first step in these kinds of situations is to write out and balance your chemical reaction.
O2 + Mg + MgO
For Trival 1 and 2, we first need to calculate the moles of magnesium. We take the difference between the mass of the crucible with Mg and the mass of the empty crucible,
which is Trial 1: 26.994g - 26.688g = 0.306
Trial 2: 26.985g - 26.681g = 0.304
We then convert these to moles by dividing by the molecular weight of Mg (24.305 g/mol), which
Trial 1 0.306/24.305 = 0.0126
Trial 2 0.304/24.305 = 0.0125
The theoretical yield would be;
Trial 1; 0.0126 (24.305 + 16) = 0.507
Trial 2; 0.0125 (24.305 + 16) = 0.504
To calculate the percent yield,
Percent Yield = (Actual Yield / Theoretical Yield) x 100%
The answer provided above is based on the full question below;
Data Trial 1 Trial 2
Mass of empty crucible with lid 26.688g 26.681g
Mass of Mg metal, crucible, and lid 26.994g 26.985g
Mass of MgO, crucible, and lid 27.188g 27.180g
1a. Magnesium is the limiting reactant in this experiment. Calculate the theoretical yield of MgO for each trial
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For each of the following series of compounds, arrange the molecules in order of decreasing basicity (most basic to least basic): NH4 :NH, INH₂
Explanation:
The basicity of a compound depends on its ability to donate a pair of electrons to an acid. The more easily a compound can donate electrons, the stronger the base it is. Based on this, we can order the compounds NH4+, NH, and INH₂ in terms of decreasing basicity as follows:
NH > NH4+ > INH₂
Here's why:
NH is the most basic of the three compounds because it has a lone pair of electrons on the nitrogen atom that is not shared with any other atoms. This makes it a very good electron donor, and therefore a strong base.
NH4+ is the next most basic compound because it is a positively charged ion, meaning it has lost one of its electrons. As a result, it is not as good at donating electrons as NH, but it is still a stronger base than INH₂.
INH₂ is the least basic of the three compounds because it has two electron-withdrawing groups (the Iodine atoms) attached to the nitrogen atom. These groups decrease the electron density around the nitrogen atom, making it less able to donate electrons and therefore a weaker base than NH4+ and NH.
Select one option for each blank.
the brightness of a star depends on its ____(distance from earth, color, or composition), and stars that are closer look ____(brighter, dimmer, or white)
what products are formed when x, which contains both a lactone and an acetal, is treated with the reagent h3o . differentiate products by greater or lesser molecular mass.
When X, which contains both lactone and acetal, is treated with the reagent H3O+, it forms two products.
These products differ in molecular mass. The products are as follows:
Product 1: The first product is a cyclic hemiacetal. The acetal and lactone are both converted to hemiacetals, which are stable under acidic conditions. The formation of hemiacetal can be depicted using the following reaction: X + H3O+→ Hemiacetal This product is of lower molecular mass than X.
Product 2: The second product is an open-chain hemiacetal. The acetal and lactone are both converted to hemiacetals, which are stable under acidic conditions. The open-chain form of hemiacetal is more stable than the cyclic form, and it is therefore preferred. The formation of hemiacetal can be depicted using the following reaction: X + H3O+→ HemiacetalThis product is of higher molecular mass than X.
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Superheated steam at T 1 ( ° C ) T1(°C) and 20. 0 bar is blended with saturated steam at T 2 ( ° C ) T2(°C) and 10. 0 bar in a ratio (1. 96 kg of steam at 20 bar)/(1. 0 kg of steam at 10 bar). The product stream is at 250°C and 10. 0 bar. The process operates at steady state. Calculate T 1 T1 and T 2 T2, assuming that the blender operates adiabatically. If in fact heat is being lost from the blender to the surroundings, is your estimate of T 1 T1 too high or too low? Briefly explain
To solve this problem, we can use the conservation of mass and energy principles. The mass balance equation can be written as:
1.96 kg steam at 20 bar = x kg steam at T₁ and 20 bar + (1-x) kg steam at T₂ and 10 bar
Solving for x gives:
x = 0.9014
Therefore, 0.9014 kg of the total steam mass comes from the superheated steam stream, while the remaining 0.0986 kg comes from the saturated steam stream.
The energy balance equation can be written as:
(1.96 kg)(h₁) = (0.9014 kg)(h₁) + (0.0986 kg)(hf₂) + (product stream)
Solving for h₁, we get:
h₁ = 3449 kJ/kg
Similarly, solving for T₂ using the saturation table for steam at 10 bar gives:
T₂ = 179.9°C
To find T₁, we can use the steam tables to look up the enthalpy of superheated steam at 20 bar and use the energy balance equation to solve for T₁:
(1.96 kg)(3188 kJ/kg) = (0.9014 kg)(3449 kJ/kg) + (0.0986 kg)(hf(T₂)) + (product stream)
Solving for T₁ gives:
T₁ = 511.6°C
If heat is being lost from the blender to the surroundings, our estimate of T₁ would be too high. This is because if the system is losing heat, the energy balance equation would be incorrect since it assumes that all the energy input is used to heat up the steam. Thus, T₁ would be overestimated, and the actual value would be lower.
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Why should a standardized NaOH solution be kept in a stoppered bottle with a rubber stopper?
A standardized NaOH (sodium hydroxide) solution should be kept in a stoppered bottle with a rubber stopper to prevent it from reacting with atmospheric carbon dioxide.
Carbon dioxide can dissolve in the solution and react with the NaOH to form sodium carbonate, which can change the concentration of the solution. This reaction can also produce heat and gas, which can cause pressure to build up in the bottle and possibly lead to the stopper popping out.
By using a rubber stopper, the solution is protected from atmospheric carbon dioxide and the stopper is able to release any pressure that may build up inside the bottle. Additionally, the use of a stoppered bottle prevents evaporation and contamination of the solution.
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When the temperature of a rigid hollow sphere containing 685 L of helium gas is held to 62C, the pressure of the gas is 1.89 * 10 ^ 3 * kPa . How many grams of helium does the sphere contain? (Round to 3 significant digits)
P stands for pressure and is 1.89 103 kPa. This is equivalent to 1.89 x 10310.325 x 18.65 atm.
when the 5.6 litres of compressed helium gas at STP?Thus, the value of $gamma $ is 1.664 for molecular formula gas such the precious gases He, Ne, or Ar and = 1.4 for diatomic gases, etc. The number of moles is n, while R is really the gas standard. As a result, 0.7L of 5.6L of argon gas at the STP is obtained by adiabatic compression.
What is included in a single helium atom?An molecule of something like the chlorine atom helium as known as a helium atom. Hydrogen is made up of two electrons connected either by electromagnetism toward a structure comprising two protons and either one or 2 particles, based on the isotope, bound together through a strong force.
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What must be true about the work associated with a system in which the internal energy change is -200 kJ as 180kJ of heat is lost to the surroundings?
Answer:
Change in internal energy if 20J of heat is supplied to a system and gas in system has done 50J work during a thermodynamic process , will be. +30J.
Compound x is a ketone that was treated with two equivalents of a thioacetal (in the presence of an acid) to form a thioacetal. the thioacetal was then treated with raney nickel to form diphenylmethane. identify the structure of compound x.
Compound x can be identified as a ketone containing a carbonyl group,
Let's start by breaking down the reaction:
Compound x (ketone) + 2 thioacetal + acid → thioacetal (product)
Thioacetal (product) + Raney nickel → diphenylmethane
In the first step of the reaction, the ketone (compound x) reacts with two equivalents of thioacetal in the presence of an acid to form the thioacetal product.
The thioacetal product is then treated with Raney nickel in the second step to form diphenylmethane.
Based on the reaction, we can infer that the carbonyl group of a ketone is replaced by a thioacetal group (-S-CH2-) when it reacts with two equivalents of thioacetal in the presence of an acid. The resulting product then undergoes hydrogenation with Raney nickel to form diphenylmethane.
Therefore, Compound x can be identified as a ketone containing a carbonyl group, but without any other functional groups that may interfere with this reaction. Without additional information or data, it is impossible to identify the specific structure of Compound x.
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The citric acid cycle has a catabolic role, oxidizing acetate into CO2 and generating energy, and an IK anabolic role. Many of the citric acid cycle intermediates serve as precursors for the biosynthesis of larger molecules. Move each of the following molecules to the precursor that gives rise to it.
In the citric acid cycle to produce catabolic effect and oxidizing acetate into CO₂ and generating energy starting from citrate and going around the circle, cholesterol, nucleotides, heme, pyruvate and glucose.
The glyoxylate cycle's primary role is anabolic, allowing the generation of glucose from fatty acids in plants and bacteria, whereas the citric acid cycle is a significant catabolic route producing a significant amount of energy for cells.
In addition to producing energy by oxidising acetate into CO2, the citric acid cycle also has an IK anabolic function. Many of the intermediates in the citric acid cycle act as building blocks for the production of bigger compounds.
Cholesterol, nucleotides, heme, pyruvate, and glucose are all used as energy sources in the citric acid cycle to provide a catabolic effect and oxidize acetate into CO2.
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What is the general trend in densities for periods 2 and 3 in the periodic table?
The general trend in densities for periods 2 and 3 in the periodic table is an increase in density from left to right across the period.
This is due to the increase in atomic number and nuclear charge as one moves across the period. As the atomic number and nuclear charge increase, the attractive forces between the positively charged nucleus and the negatively charged electrons increase, causing the electrons to be more closely held and the atoms to be smaller in size. This results in an increase in the density of the elements in the period. The trend is not always followed consistently, and there are some exceptions, particularly in transition elements. For example, chromium and copper, which are transition metals, have densities that are lower than their neighboring elements due to their electronic configurations. In general, however, the trend is useful for predicting the properties of elements based on their positions in the periodic table. It is also helpful in identifying unknown elements based on their densities, particularly if they are in the same period as other known elements with similar densities.
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Write a chemical equation for rusting of iron.
Best answer will be marked as brainliest :)
Answer:
I suppose it's 4Fe + 3O2 + 6H2O → 4Fe(OH)3
Explanation:
Iron needs both water and oxygen to oxidise and rust