Acetylene gas (C2H2) reacts with oxygen to form carbon dioxide (CO2) and water (H2O) through the following chemical reaction:
[tex]C_2H_2 + O_2 \rightarrow CO_2 + H_2O.[/tex]
When 30.0 grams of acetylene is reacted with O2, 18.5 grams of water is produced as a result of the reaction. The production of 18.5 grams of water from 30.0 grams of acetylene suggests that the reaction has proceeded to completion, with all of the acetylene being consumed and transformed into its products. The reaction is exothermic, meaning that it releases heat energy. This reaction is important in various industrial processes, including welding and cutting metal
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Q)- Acetylene gas (C2H2) reacts with oxygen to produce carbon dioxide and water. When 30. 0 g of acetylene is reacted with O2, 18. 5 g of water is formed What do you understand by this reaction?
How to calculate burette reading table
Answer:
The purpose of burette reading is to tell you how much solution has been dispensed, instead of telling you how much the burette contains. Unlike other volumetric glassware, the zero scale on a burette is written on top. Measurement scale on the burette is at 0.10 intervals. All burette readings are given to an accuracy of 0.05 mL.
Make sure your eye is at the same level of the meniscus to avoid an error. For water and most liquids, the meniscus is concave or like a U shape. Read the center of the meniscus or the bottom of the U-shape.
A zoomed-in section of the burette between 20.5 milliliters and 18.5 milliliters shows the level of the solution in the burette. There is a concave meniscus at the surface of the solution. There are 3 eyes on the right side of the burette looking at the level of the solution from above, at, and below the meniscus. The eye above the meniscus reads the solution level to be at 19.42 milliliters. The eye at the same level as the meniscus reads the level of the solution to be 19.5 milliliters. The eye below the meniscus reads the level of the solution to be 19.62 milliliters. The correct measurement of the solution level is 19.5 millimeters.
Figure: How to read the meniscus. The correct reading is 19.50 mL. Due to parallax error, the reading can be 19.62 mL or 19.42 mL.
The first and final reading of the burette should be recorded. The difference between the first and final reading is called the titer.
Readings should be recorded to the nearest 0.05 mL. Examples of readings: 22.05, 23.00, and 23.05 mL.
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Explanation:
Beth and Charlie did an experiment with plants. For this experiment, they got two plants that were the same kind, that had the same kind of soil, and that were the same size. Then, they left both plants next to the window and gave both plants the same amount of water every day. They covered one plant with a cardboard box and left the other plant uncovered.
They covered one plant with a cardboard box and left the other plant uncovered. The uncovered plant will grow and covered will not grow.
What is experiment?The experiment is the cornerstone of the scientific process, which is a methodical approach to learning about the world around you. Although some experiments are conducted in laboratories, an experiment can be conducted anywhere, at any time.
Beth and Charlie did an experiment with plants. For this experiment, they got two plants that were the same kind, that had the same kind of soil, and that were the same size. Then, they left both plants next to the window and gave both plants the same amount of water every day. They covered one plant with a cardboard box and left the other plant uncovered. The uncovered plant will grow and covered will not grow.
Therefore, the uncovered plant will grow and covered will not grow.
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suppose you dissolve 132 g of lead(ii) acetate in 2.20 l of water. what is the molality of the solution? the molar mass of lead(ii) acetate is 325.29 g/mol, and the density of water is 1.000 g/ml.
Dissolve 132 g of lead(ii) acetate in 2.20 l of air. Then the molarity of the solution is 0.184 mol/L
Molarity in the concentration of a solution is known as molar concentration or molarity with its symbol M. Molarity is used to get the concentration of a solution quantitatively.
The mass of lead acetate Pb(C2H3O2)2 = 132 g
We must first find the molarity of lead acetate:
n = mass/Mr
n = 132/325.29
n = 0.405 M
The moles of lead acetate is 0.405 mol
Then the molarity of the solution is
M = n/V
M = 0.405/2.20
M = 0.184 mol/L
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a battery may be rated in ampere-hours (ah). a lead-acid battery is rated at 190 ah. problem 01.036.a - maximum current from a battery with a specified ah rating. what is the maximum current the lead-acid battery can supply for 70 h? the maximum current that can be supplied in 70 h is a.
According to the claim made, the maximum current it can produce for 70 hours is 2.71A.
Why is lead-acid used in batteries?To create a lead-acid battery, two electrodes are submerged in an environment of sulfuric acid. In contrast to the column, the harmful electrode is attached to a mesh of metallic lead. The metallic lead oxide grains that make up the column are constructed.
Since lithium-ion batteries can tolerate higher current rates, they can be charged more quickly than lead-acid batteries. For applications that require quick responses, where vehicles are utilized more frequently and with less breaks, this is crucial. As more water is converted to hydrogen, the amount of water inside the battery drops.
The maximum current for 65 hours will be I = 190Ah/70h I = 2.71 A.
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Help what is the answer??
The reaction's thermochemical equation is -23.3 kJ/mol.
What is thermochemical equation?A chemical equation known as a thermochemical equation contains data on the energy changes that take place during a chemical process. The heat change (H) resulting from the reaction, which can either be endothermic (absorbing heat) or exothermic (producing heat), is included in a thermochemical equation together with the reactants and products of the process (releasing heat).
How do you determine it?When the change in enthalpy, H, is added to the equation, the thermochemical equation is complete:
The formula 2CO2(g) + 5H2(g) = C2H2(g) + 4H2O(g) = -23.3 kJ/mol
Which also can be explained as:
23.3 kJ of energy are absorbed for every mole of CO2(g) that undergoes the reaction, as the change in enthalpy is -23.3 kJ/mol. Due to the fact that this reaction is endothermic, energy from the surrounding environment is required to fuel it.
Overall, the reaction's thermochemical equation is 2CO2(g) + 5H2(g)=C2H2(g) + 4H2O(g), with = -23.3 kJ/mol.
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is there a correlation between the accuracy of a particular piece of glassware and its ease of use? explain why it is sometimes more appropriate to use a beaker than a pipet or buret.
There is no inherent correlation between the accuracy of a particular piece of glassware and its ease of use. The accuracy of a piece of glassware depends on various factors such as its design, manufacturing, and the conditions under which it is used, such as temperature and atmospheric pressure.
Ease of use, on the other hand, depends on factors such as the design of the glassware, its size, and the volume of liquid it can hold. For example, a beaker is typically larger and easier to handle than a pipet or buret, but its accuracy may be less precise due to the wide rim and large opening.
In laboratory settings, the choice of glassware depends on the specific requirements of the experiment. For precise measurements of small volumes of liquid, a pipet or buret is more appropriate because of their high accuracy. However, for routine tasks such as mixing and transferring larger volumes of liquid, a beaker may be more appropriate because of its ease of use.It is also important to note that in some experiments, the accuracy of the measurement is more critical than ease of use, while in others, ease of use is more important than accuracy. The choice of glassware depends on the specific requirements of the experiment and the desired outcome.
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calculate the change in ph when 8.00 ml of 0.100 m hcl(aq) is added to 100.0 ml of a buffer solution that is 0.100 m in nh3(aq) and 0.100 m in nh4cl(aq).
When 100.0 ml of a buffer solution that contains 0.100 m in each of nh3(aq) and nh4cl and 8.00 ml of 0.100 m hcl(aq) are combined, the resulting pH change is 0.07 (aq).
the buffer has
[NH3] = 0.1 M
[NH4Cl] = 0.1 M
pKb of NH3 = 4.75
thus
i)
pH of original buffer
pOH = pKb + log [conjugate acid]/[base]
= 4.75+ log 0.1/0.1= 4.75
and pH = 14-pOH = 9.25
ii) when 8mL of 0.1M Hcl added to 100mL of buffer
NH3 + HCl ============> NH4Cl
100x0.1=10 0 100x0.1=10 initial mmoles
---------- 8x0.1=0.8 ----------- change
9.2 0 10.8 equilbrium
thus
pOH of this buffer solution = 4.75 + log 10.8/9.2= 4.82
and pH = 14-POH = 14-4.82 =9.18
change in pH = final - initial pH = 9.18 - 9.25 =- 0.07 ( pH decreases by 0.07 units)
iii) 8.0mL of 0.1M NaOH added
NH4CL + NaOH -------------------> NH3 + NaCl + H2O
100x0.1=10 0 100x0.1=10 -------------------- initial mmoles
------------ 8x0.1=0.8 ---------------------------------- change
9.2 0 10.8 ------------equilibrium
pOH = 4.75 + log 9.2/10.8
= 4.68
pH = 14-4.68= 9.32
Change in pH = 9.32-9.25 = 0.07 (pH increases by 0.07units)
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Write the balanced nuclear equations for the alpha and beta decay of Radium-226.
Alpha decay of Radium-226:
226Ra → 222Rn + 4He
Beta decay of Radium-226:
226Ra → 226Ac + 0e + v
What is alpha and beta decay?Alpha decay is a type of radioactive decay in which a heavy nucleus emits an alpha particle, which consists of two protons and two neutrons, effectively reducing the atomic number of the nucleus by two and transforming it into a different element.
Beta decay is a type of radioactive decay in which a nucleus emits a beta particle, which is an electron or a positron, and transforms into a different isotope. This changes the atomic number of the nucleus by one.
From the question given the balanced nuclear equations are:
Alpha decay of Radium-226:
226Ra → 222Rn + 4He
Beta decay of Radium-226:
226Ra → 226Ac + 0e + v
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True or false? Only metals above hydrogen in the reactivity series react with acids to make a salt and hydrogen.
Answer:
True
Metals above hydrogen in the reactivity series will displace hydrogen from acids, forming a salt and releasing hydrogen gas. Metals below hydrogen in the reactivity series are not reactive enough to displace hydrogen and will not react with acids to form hydrogen gas.
20.0 g of bromic acid, HBrO3, is reacted with excess HBr.
HBrO3(aq) + 5 HBr (aq) → 3 H₂O (1) + 3 Br₂ (aq)
What is the theoretical yield of Br₂ for this reaction? Round your answer to the nearest gram.
Answer:
The theoretical yield of Br₂ for this reaction is 18.09 grams.
Is a beta sheet a secondary protein structure?
Yes, beta sheet is a secondary protein structure found in proteins.
Beta-Pleated Sheets of Protein is defined as a special type of secondary structure of a protein. Beta-Pleated Sheets consists of different beta strands linked by hydrogen bonds between the adjacent strands. Around three to ten amino acids are combined to create a beta-strand polypeptide.
Generally, a beta-pleated protein sheet is a type of protein secondary structure. Most of the proteins contain both α-helices and β-sheets, but some proteins contain only one type of secondary structure . A beta sheet is that type of secondary structure which describes how the backbone of a protein is arranged in space. Beta-pleated protein sheet consists of at least two beta strands.
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Which of the following changes will always be true for a spontaneous reaction? +ΔG –ΔG +ΔS –ΔH
trace directly the repeating covalently-bonded backbone atoms in the direction of the amino to carboxyl ends of a polypeptide. which atoms are found repeated in this trace?
The repeating covalently-bonded backbone atoms in a polypeptide are carbon (C), nitrogen (N), and oxygen (O).
These atoms make up the backbone structure of the polypeptide, connecting the amino acids in a chain-like structure. The repeating pattern starts with a nitrogen atom in the amine group (-NH2) of one amino acid, which is bonded to a carbon atom in the alpha (α) carbon, which is also bonded to a hydrogen (H) atom.
This carbon atom is also bonded to a second nitrogen atom in the carboxyl group (-COOH) of another amino acid, which is bonded to a second carbon atom in the second alpha carbon, and so on. This repeating pattern of nitrogen, carbon, and oxygen atoms forms the backbone of the polypeptide, connecting the amino acids in the direction from the amino to the carboxyl end.n:
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a 0.100 m solution of table salt (nacl) in water is observed to produce twice the freezing-point depression as a 0.100 m solution of table sugar (sucrose). explain.
The freezing point depression of a solution is proportional to the number of solute particles dissolved in a solvent. Table salt (NaCl) is a strong electrolyte that dissociates into two ions (Na+ and Cl-) in water, while table sugar (sucrose) is a nonelectrolyte that does not dissociate into ions.
A nonelectrolyte is a substance that does not ionize or dissociate into ions when dissolved in a solvent, such as water. Unlike electrolytes, which dissociate into ions and conduct electricity, nonelectrolytes do not conduct electricity when dissolved in a solvent.
Examples of nonelectrolytes include sugar, glucose, and urea. When dissolved in water, these substances do not ionize and do not conduct electricity. Instead, they exist as individual molecules that do not participate in ionic interactions.
Nonelectrolytes are essential components of many biological processes, including metabolism and cellular respiration. For example, glucose acts as a source of energy for living organisms and is transported through the body as a nonelectrolyte. In contrast, electrolytes, such as sodium and potassium ions, play a critical role in maintaining fluid balance and conducting nerve impulses in the body.
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what molecules produced in the light reaction provide energy for these reactions? (rubp, co2, 3-phosphoglycerate, glyceraldehydes-3-phosphate (g3p))
The Calvin cycle is a series of reactions that take place in the stroma of chloroplasts in photosynthetic cells, and it is responsible for converting carbon dioxide (CO2) into sugars. The cycle consists of three phases: fixation, reduction, and regeneration.
In the fixation phase, CO2 is added to ribulose-1,5-bisphosphate (RuBP) to form a six-carbon intermediate.
In the reduction phase, the six-carbon intermediate is then reduced to two molecules of glyceraldehyde-3-phosphate (G3P). This process requires energy, which is provided by ATP and NADPH, the high-energy molecules produced in the light reactions.
In the regeneration phase, the two G3P molecules are converted back into RuBP, completing the cycle. This allows the Calvin cycle to continue, and the sugars produced can be used for energy and to build more complex compounds.
In summary, the Calvin cycle converts CO2 into sugars through a series of reactions that require energy from ATP and NADPH produced in the light reactions.
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Summarize the reactions occurring in the three phases of the Calvin cycle (fixation, reduction, regeneration). What molecules produced in the light reaction provide energy for these reactions? (RuBP, CO2, 3-phosphoglycerate, glyceraldehydes-3-phosphate (G3P))
Nitrogen dioxide is one of the many oxides of nitrogen (often form another form of NOx, dinitrogen tetroxide A chemical engineer studying this reaction fils a 500. ML flask at 7. 9 °C with 4. 9 atm of nitrogen dioxide gas. He thèn raises the temperature considerably and when the mixture has come to equilibrium determines that it contains 2. 7 atm of nitrogen dioxide gas The engineer then adds another 1. 2 atm of nitrogen dioxide, and allows the mixture to come to equilibrium again. Calculate the pressure of dinitrogen tetroxide after equilibrium is reached the second time. Round your answer to 2 significant digits collectively called·N ' that are of interest to atmospheric chemistry. It can eact with ter to 囲 atm □-10 I Don't Know Submit
When the engineer adds an additional 1.2 atm of nitrogen dioxide, the total pressure of the mixture is 4.9 atm + 1.2 atm = 6.1 atm. At equilibrium, the pressure of dinitrogen tetroxide is approximately 2.3 atm.
This is calculated by subtracting the equilibrium pressure of nitrogen dioxide (2.7 atm) from the total pressure of the system (6.1 atm). Therefore, after equilibrium is reached the second time, the pressure of dinitrogen tetroxide is 2.3 atm.
When nitrogen dioxide gas is added to a system, the equilibrium pressure of dinitrogen tetroxide is determined by Le Chatelier's principle. This principle states that when a system is disturbed from equilibrium, it will shift to re-establish equilibrium.
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water is extremely important in living things for all of the following reasons exceptgroup of answer choicesit has high specific heat and resists temperature change.it is a good solvent; most things dissolve in it.it is an excellent buffer.it has high heat of vaporization and low density of ice.
Water is not a suitable buffer because there is not enough acid or base in the given amount of water that is produced when another acid or base is added. So the answer is c.
Water is not a suitable buffer because there is not enough acid or base in the given amount of water that is produced when another acid or base is added. Water has unique chemical properties in all three states: solid, liquid, and gas, thanks to the ability of its molecules to form hydrogen bonds with each other. From humans to bacteria, living organisms have a high water content, so understanding the unique chemistry in his three states of water is key to biology.
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Workers in radioactive laboratories are shielded from the harmful effects of radiation by using
A thick lab coats.
B cosmic rays in the lab.
C thick blocks of lead.
D non-radioactive pills daily after work.
Answer:
C thick blocks of lead
Explanation:
Inserting the proper shielding like lead, concrete, or special plastic shields depending on the type of radiation between a worker and a radiation source will greatly reduce or eliminate the dose received by the worker
Identify the items needed to run a spectrophotometry experiment. Select one or more: spectrophotometer hot plate blank solution sample solutions cuvette stir bar
In addition to the light source (100W incandescent or other polychromatic light source) and detector, the spectrophotometer contains a prism or grating to capture different wavelengths from the light source and a slit to select a narrow range of wavelengths. is also required.
Spectrophotometry is a standard and inexpensive technique for measuring light absorption or the amount of chemicals in solution. Using a light beam that passes through the sample, each compound in solution absorbs or transmits light of a specific wavelength. A spectrophotometer consists of three main components: A light source, optics for delivering and collecting light, and a detector.
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4. Explain the rock in a bucket of water analogy. What type of weather does this cause?
Answer:
The rock in a bucket of water analogy is used to describe how air masses interact. When a warm air mass is placed over a cold air mass, it is like a rock being placed in a bucket of water. The warm air mass will initially rise, creating an area of low pressure. The cold air mass will then rush in to fill the area of low pressure, creating a storm. This type of weather causes thunderstorms, heavy rains, and high winds.
Measurements show that unknown compound X has the following composition:
element-mass %
zinc-75.3%
oxygen-24.5%
Write the empirical chemical formula of X.
The empirical formula of compound X is Zn3O4.
To determine the empirical formula of compound X, we need to find the mole ratio of zinc and oxygen in the compound. We can assume a 100-gram sample of the compound to make the calculations easier.
The mass of zinc in the compound is 75.3 grams (75.3% of 100 g).
The mass of oxygen in the compound is 24.5 grams (24.5% of 100 g).
Next, we need to convert the mass of each element to moles, using their respective atomic masses:
Zinc: 75.3 g / 65.38 g/mol = 1.152 moles
Oxygen: 24.5 g / 15.99 g/mol = 1.532 moles
We then divide both mole values by the smallest mole value to get the mole ratio:
Zinc: 1.152 moles / 1.152 moles = 1
Oxygen: 1.532 moles / 1.152 moles = 1.33
We need to convert the mole ratio to the simplest whole number ratio by dividing both values by the smallest value (1):
Zinc: 1 / 1 = 1
Oxygen: 1.33 / 1 = 1.33 (rounded)
Since we need a whole number for the formula, we multiply both values by 3 to get rid of the decimal:
Zinc: 1 x 3 = 3
Oxygen: 1.33 x 3 = 4 (rounded)
The empirical formula of compound X is Zn3O4.
They are made of mostly hydrogen and helium, held together by its Sun. What is being described? Odwarf planets moons stars
Stars are made of mostly hydrogen and helium, held together by the Sun.
Are stars mostly made of hydrogen and helium?
Massive celestial objects called stars, which are primarily composed of hydrogen and helium, generate light and heat from the churning nuclear forges inside their cores. The other flecks of light we see in the sky, besides our sun, are all light-years away from Earth.
What holds a star together?
The process responsible for a star's luminosity is known as nuclear fusion. The pull of gravity is resisted by the hot gas as it pushes outward. A star is created by this harmony of forces. It maintains the star's structural integrity and maintains its temperature throughout the majority of its lifespan.
What causes stars to group together?
The majority of stars in the Milky Way are found in pairs or clusters of multiple stars, which is consistent with predictions made by three-dimensional computer models of star formation that the collapsing spinning clouds of gas and dust may split into two or three blobs.
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discuss and recognize the formula units that comprise ionic compounds. recognize a polyatomic ion and be able to draw the covalent bonding of polyatomic ions that result in a compound.
A polyatomic ion is a group of atoms that have a net charge and act as a single unit in chemical reactions. Some common examples of polyatomic ions include nitrate (NO3-), carbonate (CO32-), and sulfate (SO42-).
Ionic compounds are composed of positive and negative ions. The positive ions, or cations, are usually composed of metal elements and the negative ions, or anions, are typically composed of non-metal elements. The combination of these ions creates a formula unit, which is a neutral compound that results from the total balance of positive and negative charges.
The formula units in an ionic compound are held together by electrostatic attraction, or the force of attraction between opposite charges. This type of bonding results in a repeating lattice-like structure, with the cations and anions arranged in a specific pattern.
In a covalent bond, electrons are shared between the atoms, rather than being transferred from one atom to another as in an ionic bond. Polyatomic ions can form covalent bonds with other polyatomic ions or with individual atoms to form compounds. For example, the polyatomic ion carbonate (CO32-) can form a covalent bond with a metal cation, such as sodium (Na+), to form sodium carbonate (Na2CO3). The carbonate ion shares its electrons with the sodium ion to form a neutral compound.
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during neutralization strong acids react first with any strong acid and then with the most abundant base . neutralization is
Neutralization of Strong Acids and Strong Bases.The pH is neutral when a strong acid and a strong base completely neutralise one another.
When the pH is neutral, it means that it is 7.01 at 25 oC. Equal amounts of OH and H3O+ are present at this stage of neutralisation. NaOH is not in excess.In a strong acid-strong base titration, the reaction between the acid and base will result in a neutral solution. Hydronium (H+) and hydroxide (OH-) ions will combine to produce water at the reaction's equivalence point, which will result in a pH of 7. Because both the acid and base completely ionise, the enthalpy of neutralisation for every strong acid and strong base is always constant, or 57.1 kJ. An aqueous solution in which an acid and a base react to create salt and water is known as a neutralisation reaction. Salt is the name for the reaction product, which is sodium chloride in aqueous form. An acidic anion and a cation produced from a base make up a salt, an ionic compound.
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How many atoms are in a sample of 0.615 mol Ne?
Taking into account the definition of Avogadro's Number, 3.704×10²³ atoms are in a sample of 0.615 mol Ne.
Definition of Avogadro's NumberAvogadro's number indicates the amount of elementary entities (molecules, atoms, ions or other similar particles) that a mole of any substance contains. It applies to molecular and atomic substances.
Its value is 6.023×10²³ particles per mole.
Atoms in NeYou can apply the following rule of three: If 1 mole of Ne contains 6.023×10²³ atoms, 0.615 mole of Ne contains how many atoms?
amount of atoms= (0.615 moles ×6.023×10²³ atoms)÷ 1 mole
amount of atoms= 3.704×10²³ atoms
Finally, 3.704×10²³ atoms of Ne are present.
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please help :( no need for explanation, thanks
We know that the reaction when shown in words is called a word equation.
What are chemical and word equations?We know that when we write a chemical equations, we are trying to show what is going on when there are reactants and products in the reaction. We know that the species that we write on the left hand side are the reactants while the ones that we write on the right hand side are the products.
If we use chemical symbols then we call it a chemical reaction equation. If we use words to show the reactants and the products then we call it a word equation.
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Which on of the following changes would cause the volume of a gas to double? a. changing the pressure and the other would be by changing the temperature b. from 300K to 600K c. temperature rises from 373 K to 473 K
The adjustment that would result in the gas's volume doubling, assuming the gas is maintained at constant pressure, is option B: raising the temperature from 300 K to 600 K.
A key idea in physics is pressure, which is measured as the amount of force per unit area acting perpendicular to a surface. The pascal (Pa), which is equal to 1 newton per square metre, is the unit of pressure in the SI system. P is for pressure. F is the force that is delivered perpendicular to the surface (normally), and. The amount of force acting perpendicular to a unit area is referred to as pressure. The formula for pressure in mathematics is P=F/A, where P stands for pressure, F for force, and A for the area under consideration. Time is saved. Work "expands to cover the time available for its completion," according to Parkinson's Law.
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aluminum and silicon sit side-by-side in the periodic table. which would you expect to have a larger elastic modulus and why?
The elastic modulus of a material is a measure of its resistance to deformation when subjected to an applied force. The larger the elastic modulus, the stiffer the material and the more resistant it is to deformation.
In this case, aluminium (Al) has a larger elastic modulus than silicon (Si). The exact values depend on the specific form of the materials, but in general, aluminium has an elastic modulus of around 69 GPa, while silicon has an elastic modulus of around 160-190 GPa.
The reason for this difference is due to the differences in the crystal structure and bonding of the two elements. Aluminium has a face-centred cubic crystal structure and covalent bonding, which results in a relatively high elastic modulus. Silicon has a diamond cubic crystal structure and covalent bonding, which leads to an even higher elastic modulus.
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if a solution containing 65.21 g of mercury(ii) nitrate is allowed to react completely with a solution containing 9.718 g of sodium sulfide, how many grams of solid precipitate will form?
A solid precipitate of 27.84 g of HgS is formed.
First, write down a properly balanced equation for the reaction taking place.
Hg(NO3)2(aq) + Na2S(aq) ==> HgS(s) + 2NaNO3(aq) ... equilibrium equation
Then find out which reactant is limiting.
Mol Hg(NO3)2 present 65.21 g x 1 mol/324.60 g = 0.200 mol
Moles of Na2S present = 9.718 g x 1 mol/78.045 g = 0.12 mol
Since they react with 1:
At 1 molar ratio, Na2S is clearly limiting and determines the amount of HgS formed.
Grams of HgS precipitate formed = 0.12 mol Na2S x 1 mol HgS/mol Na2S x 232.66 g/mol = 27.84 g HgS
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a sample of helium atoms absorbs energy. will the photons of light emitted by the helium atoms be found at all wavelengths?
No, the photons of light emitted by the helium atoms after they absorb energy will not be found at all wavelengths.
When an atom absorbs energy, its electrons move to higher energy levels. When the electrons return to their lower energy levels, they release energy in the form of photons of light. The wavelength of the light emitted is specific to the energy difference between the two levels and is dependent on the electron transition.
Each electron transition will result in the emission of a specific wavelength of light, and not all transitions will emit light at the same wavelength. Therefore, the photons of light emitted by the helium atoms will be found at specific, characteristic wavelengths and not at all wavelengths.
This principle is known as spectral emission, and it is the basis for many analytical techniques, such as spectroscopy, which uses light to study the properties of materials. Spectral emission can also be used to identify the presence of specific elements or compounds, as each has its own unique set of characteristic wavelengths.
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