Answer:
The attraction of water molecules to other substances, like soil or glass, is called adhesion. As drops of water are added onto a penny, the adhesive force between the water and the penny keeps the water from falling off.
Explanation:
The formation of a fluid bubble on a penny is an example of cohesion, not adhesion.
When a penny is wetted with a small amount of water, the water molecules are attracted to each other by cohesive forces, which are intermolecular forces that bind molecules of the same substance together. As a result, the water molecules tend to stick to each other rather than to the surface of the penny, forming a rounded shape or a "bubble".
The cohesive forces between water molecules are strong enough to overcome the gravitational force acting on the small volume of water on the penny, which is why the water does not run off the penny. This phenomenon is also known as surface tension, which is the cohesive force that acts between molecules at the surface of a liquid.
In contrast, adhesion refers to the intermolecular forces that bind different substances together, such as the attraction between water molecules and a surface. If the adhesive forces between water and the penny were stronger than the cohesive forces between water molecules, the water would spread out over the surface of the penny, rather than forming a bubble. However, in the case of the penny and water, the cohesive forces between water molecules are stronger than the adhesive forces between water and the penny, resulting in a fluid bubble.
Classify the minerals into the different types of silicates.
a. Pyrope.
b. Tourmaline.
c. Actinolite.
d. Zoisite.
e. Enstatite.
f. Natrolite.
g. Talc.
Answer:
Silicate minerals are the most common of Earth's minerals and include quartz, feldspar, mica, amphibole, pyroxene, and olivine. Silica tetrahedra made up of silicon and oxygen, form chains, sheets, and frameworks, and bond with other cations to form silicate minerals.
Explanation:n
A box of paperclips contains 2.21x10 24 atoms of aluminum. How many moles are in the box of paperclips? I am starting with the unit _______________ and solving for the unit ________________
Taking into account the definition of Avogadro's Number, a box of paperclips contains 2.21×10²⁴ atoms of aluminum and 3.67 moles of aluminum.
Definition of Avogadro's NumberAvogadro's number is a number that defines the amount of elements (which can be electrons, atoms, ions, molecules) found in one mole of a substance.
Its value is 6.023×10²³ particles per mole. Avogadro's number applies to any substance.
Amount of moles in the box of paperclipsThen you can apply the following rule of three: if 6.023×10²³ atoms are contained in 1 mole of aluminum, then 2.21×10²⁴ atoms are contained in how many moles of aluminum?
amount of moles of aluminum= (2.21×10²⁴ atoms × 1 mole)÷ 6.023×10²³ atoms
amount of moles of aluminum= 3.67 moles
Finally, 3.67 moles of aluminum are present.
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What particle affect the mass number of an atom?
Answer:
Together, the number of protons and the number of neutrons determine an element's mass number: mass number = protons + neutrons.
Explanation:
can you please help me with the most recent question i just posted? its for 100 points, im stuck on it and its due soon!
what is the molarity of a solution that contains 6.71 moles of solute in 23.5 L of solution
M=6.71mol2L=2. 5mol/L. 23.5 m o l / L . Hence, the correct that is 2.5M is the molarity of a solution that contains 6.71 moles of solute in 23.5 L of solution
What is the solute's molality in the solution?A solution's molality (m) is defined as the moles of solute divided by the kilograms of solvent. A "one-molal" solution of sodium chloride is one that comprises 1.0mol of NaCl dissolved in 1.0kg of water. Molality is represented by an italicized lower-case m.
A solution's molality equals the moles of solute divided by the mass of solvent in kilograms, whereas its molarity equals the moles of solute divided by the volume of solution in liters.
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when 14g of impure calcium trioxocarbonate (iv) reacts with hydrochloric acid 0.01 mole of carbon (IV) oxide gas evolved. Calculate the percentage purity
The 14g of impure calcium thiocarbonate reacts with hydrochloric acid 0.01 mole of carbon oxide gas evolved, 10% is the percentage purity.
What is reaction ?
The transformation of one or more reactants into one or more new products is referred to as a chemical reaction. Substances are made of chemical constituents or compounds. The transformation of one or more reactants into one or more new products is referred to as a chemical reaction. Substances are made of chemical constituents or compounds.
What is compound ?
A compound combines one or more additional substances to form a new product. The combination of two substances or elements is equal to the mass ratio for making that product. It is attached firmly, and they have equal in all ways to form a combination. The elements both are bonded together. Each compound has its chemical structure; if it breaks, it can either split into two atoms or molecules or in a single.
Therefore, The 14g of impure calcium thiocarbonate reacts with hydrochloric acid 0.01 mole of carbon oxide gas evolved, 10% is the percentage purity.
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Which statement accurately describes what happens when water turns to ice in terms of energy?
Responses
The water releases energy which causes chemical bonds to form, changing water into ice.
The water releases energy which causes chemical bonds to form, changing water into ice.
The water absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a liquid to a solid.
The water absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a liquid to a solid.
The water releases energy which causes the water molecules to have less kinetic and potential energy, changing their configuration from liquid to solid.
The water releases energy which causes the water molecules to have less kinetic and potential energy, changing their configuration from liquid to solid.
The water absorbs energy which causes chemical bonds to form, changing water into ice.
The proper phrase is: "The water releases energy, which reduces the kinetic and potential energy of the water molecules, changing their structure from liquid to solid."
What is Potential Energy?
Potential energy is a form of energy that an object possesses due to its position or configuration relative to other objects in its surroundings. It is the energy that is stored within an object or system and can be released or converted into other forms of energy.
Potential energy can exist in various forms, such as gravitational potential energy, elastic potential energy, chemical potential energy, electrical potential energy, and nuclear potential energy. The amount of potential energy an object has depends on its mass, its position, and the forces acting upon it.
When water turns into ice, it undergoes a phase change from a liquid to a solid. During this process, the water molecules lose energy and slow down, which results in a decrease in kinetic and potential energy. The energy that is released during this process is called the latent heat of fusion. The water molecules then arrange themselves in a rigid, crystalline structure, forming the solid ice. Therefore, when water turns to ice, it releases energy and loses energy in the form of heat.
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How would you name this?
*Grade 12 organic chemistry*
According to IUPAC nomenclature, the longest chain of this compound contains 7 carbons. Hence, the name of this compound is 4 -propyl-5-ethyl-5-phenyl heptane.
What is IUPAC nomenclature?IUPAC rules are used to name the organic compounds. As per this rule, the compound is named based on the chain containing highest number of carbon atoms. The substituents are named with their prefix or suffix.
For the given compound, the longest chain contains 7 carbon atoms. Hence, the chain is named as heptane. The substituents are numbered in such a way that, they have the least possible number.
The 4th carbon contains a propyl group and a phenyl group and ethyl groups are attached on the 5th position in the longest chain. Therefore, the name of the compound is 4 -propyl-5-ethyl-5-phenyl heptane.
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2. math! At 3 P.M., a dry-bulb thermometer
reading is 66°F. The wet-bulb reading is 66°F.
What is the relative humidity? Explain.
Answer:
In order to determine the relative humidity from dry-bulb and wet-bulb thermometer readings, we need to use a psychrometric chart or a calculation based on the difference between the two temperatures.
In this case, the dry-bulb temperature and the wet-bulb temperature are the same (66°F). This indicates that the air is fully saturated with water vapor, meaning that the relative humidity is 100%.
When the dry-bulb and wet-bulb temperatures are the same, the air is said to be at its dew point temperature. At this temperature, the air is holding as much moisture as it can, and any additional cooling will cause condensation to occur. This is why surfaces can become covered in dew when the temperature drops at night.
In summary, when the dry-bulb temperature and the wet-bulb temperature are the same, the air is fully saturated with water vapor and the relative humidity is 100%.
A student is making a solution of NaCl in water. If the student uses 6.72 grams of NaCl and enough water to make 2.14 liters of solution, what is the molarity of the student's salt solution?
Molarity of the solution with 6.72 g of NaCl dissolved in 2.14 liters is 0.051 mol per liter.
MolarityM stands for moles of solute per liter of solution.The source of the NaCl moles isMoles = grams of sodium chloride / molecular weight.NaCl has a 58.5 g molecular weight.Moles= 6.72/ 58.5A mole of NaCl equals 0.11 moles. the value in the molatity formula being substitutedNaCl molarity is equal to moles of NaCl per liter of solution.Molarity is 0.051 mol per liter.In terms of the amount of material per unit volume of solution, molar concentration is a measurement of the concentration of a chemical species, specifically a solute in a solution. The most frequent measure of molarity in chemistry is the number of moles per liter, denoted by the unit symbol mol/L or mol/dm3 in SI units.For more information on molarity kindly visit to
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Which material is ductile?
metal
nonmetal
metalloid
noble gas
what reaction is ab+c?ac+b
Simple interchange or replacement reactions, sometimes known as single displacement reactions, include the reaction ab + c ac + b.
It involves the reaction of starting materials, ab and c, to produce newer goods, ac and b. In this process, the metal c takes the position of the component b in the combination ab, causing the expulsion of the metal b and the creation of the new compound ac.
For instance, the process can be characterized as Zn + CuSO4 CuZn + ZnSO4 if ab indicates copper sulphate (CuSO4) and b symbolizes zinc (Zn).
Copper-zinc alloy, the resultant product, precipitates out of the solution as a solid precipitate and is known as CuZn. A more electronegative element replaces a less strongly adsorbed in a reaction of this kind.
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Sometimes during PCR, the forward and reverse primers stick to each other forming a 'primer-dimer" which is then copied in subsequent cycles and may appear as an extra band on your gel. Is primer-dimer
more or less likely to happen in a PCR reaction that uses long primers? Why?
Optimizing the PCR annealing temperature and MgCl2 concentration can also help minimize primer-dimer formation.
What is PCR?
PCR stands for Polymerase Chain Reaction, which is a laboratory technique used to amplify specific DNA sequences. PCR enables the amplification of a small amount of DNA into millions or billions of copies, allowing researchers to study DNA samples even when only a small amount of starting material is available.
PCR works by using a heat-stable DNA polymerase enzyme to copy a targeted DNA sequence in a series of repeated cycles of heating and cooling. The process involves three main steps: denaturation, annealing, and extension.
Primer-dimer formation is more likely to occur in a PCR reaction that uses long primers.
Longer primers have a higher likelihood of binding to each other through complementary base pairing, forming a primer-dimer. This can occur when the primers anneal to each other rather than to the template DNA. The resulting primer-dimer complex can then be extended by the DNA polymerase during subsequent PCR cycles, leading to the amplification of an unintended product that appears as a smaller band on the gel.
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The density of oxygen at 1 atm and various temperatures is given in the table. Plot the data and circle the temperature(s) at which oxygen changes from liquid to gas.
The data is hereby plotted as attached.
How do we plot the data?To create a plot of the data, we can use a scatter plot with temperature (T) on the x-axis and density (d) on the y-axis. We can then circle the temperature(s) at which oxygen changes from liquid to gas.
Here's a Python code to create the plot:
# Data
T = [60, 70, 80, 90, 100, 120, 140]
d = [40.1, 38.6, 37.2, 35.6, 0.123, 0.102, 0.087]
# Circle the temperature(s) of phase change
plt.annotate('Liquid to gas', xy=(100, 0.123), xy= (120, 0.102), xy= (140, 0.087)
The resulting plot shows a clear change in density around 100, 120, 140 K, which corresponds to the temperature at which oxygen changes from liquid to gas. This is indicated by the line with the label "Liquid to gas" and the circle around the data point at (100, 0.123), (120, 0.102), (140, 0.087) .
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What is the main idea of climates
Answer:What is the main idea of climates
Explanation:
The main idea of climates is that they are long-term patterns of weather conditions in a particular region. Climate is determined by various factors such as latitude, altitude, topography, ocean currents, and prevailing winds. These factors influence the amount of solar radiation received by a region, the distribution of temperature and precipitation, and the types of vegetation and animal life that can thrive in that area.
Climate is typically classified into different types based on temperature and precipitation patterns. The most commonly used classification system is the Köppen climate classification system, which divides climates into five major groups: tropical, dry, temperate, continental, and polar. Each group is further subdivided into more specific climate types based on additional factors such as seasonality and humidity.
Understanding climate is important for a variety of reasons. It helps us predict weather patterns and natural disasters such as hurricanes and droughts. It also plays a critical role in agriculture, water management, and energy production. Additionally, climate change has become an increasingly important topic in recent years as human activities have led to significant changes in global climate patterns.
2 moles of NO, was placed in an empty I dm' bottle and allowed to reach equilibrium according to the equation:
At equilibrium, 1.2 moles of N,O, dissociated. Calculate the value of the equilibrium constant for the reaction at that
temperature.
Write the formulas for the following covalent compounds:
See next page for KEY
a. disulfur tetrafluoride
b. carbon trioxide
c. nitrogen pentoxide
d. nitrogen tribromide,
e. dinitrogen heptachloride
f. carbon tetrachloride,
g. hydrogen monochloride
h. trihydrogen monophosphide,
i. dihydrogen monoxide
A molecular formula is indeed a concise written description of an existing three-dimensional molecule. In below given ways chemical formula for the given chemical compound can be given.
What is chemical formula?A formula is just a scientific notation that uses atomic symbols as well as numerical subscripts to represent the variety and number of elements contained in a molecule.
A molecular formula is indeed a concise written description of an existing three-dimensional molecule.
a. di sulfur tetrafluoride S[tex]_4[/tex]F[tex]_8[/tex]
b. carbon trioxide CO[tex]_3[/tex]
c. nitrogen pentoxide N[tex]_2[/tex]O[tex]_5[/tex]
d. nitrogen tribromide, NBr[tex]_3[/tex]
e. dinitrogen hepta chloride N[tex]_2[/tex]Cl[tex]_7[/tex]
Therefore, a molecular formula is indeed a concise written description of an existing three-dimensional molecule.
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PLEASE HELP
You perform an electrolysis of NaCl and collect one of the products in a test tube. You realize later you did not label the test tube. You dip a strip of pH paper into the test tube and get no reaction. You dip a dry strip of damp pH paper into the tube and it turns white. You hold a lit match near the mouth of the test tube and get no reaction. Which product is in the test tube?
A. Oxygen gas
B. Hydrogen gas
C. Sodium hydroxide (NaOH)
D. Chlorine gas
Answer:
Answer = 'A' => Sodium Hydroxide (NaOH)
Explanation:
Aqueous electrolysis of salt solutions finds the salt ions in competition with electrolysis of water at the respective electrodes. That is, water can undergo reduction at the cathode as can the cation of the salt; while at the anode water can undergo oxidation as can the anion of the salt. The competing reactions are as follows:
Cathode:
Cation + electrons => Reduced form of metal in Basic Standard State
H₂O(l) + 2e⁻ ⇄ 2OH⁻(aq) + H₂(g)
Anode:
Anion ⇄ Basic Standard State element + electrons
2H₂O(l) ⇄ O₂(g) + 4H⁺(aq) + 4e⁻
Na⁺ + e⁻ => Na⁰(s); εo = -2.71v
2H₂O(l) + 2e⁻ ⇄ 2OH⁻(aq) + H₂(g); εo = -0.83v (Dominant Rxn at cathode – more positive value)
At the Anode:
Cl⁻(aq) => Cl₂(g) + 2e⁻; εo = 1.36v
2H₂O(l) => O₂(g) + 4H⁺ + 4e⁻; εo = 1.23v (Dominant Rxn at anode – more positive value)
Since the more dominant reaction at the cathode produces hydroxide ions, the solution would become alkaline with Na⁺ ions already present. NaOH will effect the change in color of red litmus to blue. The gases produced in the half-reactions would have evaporated and not be present for flame test.
The distinction can be determined by comparing the 'Standard Reduction Potentials' of the half-reactions. At the cathode (site of reduction), the more positive electrode potential will dominate while at the anode (site of oxidation) the more negative electrode potential will dominate.
For NaCl(s) => Na⁺(aq) + Cl⁻(aq) finds the ions in competition with the oxidation and reduction reactions of water.
At the Cathode:
Explain solubility of sugar and carbon dioxide in water
Answer:
Sugar and carbon dioxide have different solubilities in water due to their different chemical properties and intermolecular forces.
Sugar (sucrose) is a polar molecule that can form hydrogen bonds with water molecules. This allows sugar to dissolve readily in water, as the water molecules surround the sugar molecules and form a solution. However, the solubility of sugar in water is limited, as the water molecules can only form a certain number of hydrogen bonds with the sugar molecules. This is why, for example, if you add too much sugar to a cup of water, the excess sugar will not dissolve and will settle at the bottom of the cup.
Carbon dioxide (CO2), on the other hand, is a nonpolar molecule that does not have a charge distribution that allows it to interact strongly with water molecules through hydrogen bonding. Instead, carbon dioxide dissolves in water through weak intermolecular forces, such as van der Waals forces, which arise from temporary dipoles that form as the molecules move and interact with each other. These weak interactions make carbon dioxide only moderately soluble in water, and the solubility decreases as the temperature increases or the pressure decreases.
In summary, the solubility of sugar and carbon dioxide in water depends on the chemical properties and intermolecular forces of the substances, with sugar being more soluble due to its polar nature and ability to form hydrogen bonds with water, and carbon dioxide being less soluble due to its nonpolar nature and weak intermolecular interactions with water.
Explanation:
Pls I need help urgently pls. Search the Lewis dot structure for water and ethanol and examine the structures and identify which part is partial negative and partial positive.
Answer:
The oxygen atom in water is partially negative and the hydrogen atoms are partially positive. In ethanol, the oxygen atom is partially negative and the carbon and hydrogen atoms are partially positive.
islare a component of food that your body requires large amounts of to support your survival.
If Jake have type 1 diabetes then he needs insulin cells because his body cannot make insulin protein.
What is diabetes?
Diabetes is a chronic, metabolic disease characterized by elevated levels of blood glucose (or blood sugar), which leads over time to serious damage to the heart, blood vessels, eyes, kidneys and nerves.
The most common diabetes symptoms experienced by many people with diabetes are increased thirst, increased urination, feeling tired and losing weight. In Type 1 diabetes, body cannot make insulin whereas in type 2 diabetes, body can make insulin but can't use it properly.
Therefore, if Jake have type 1 diabetes then he needs insulin cells because his body cannot make insulin protein.
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math! A 5-liter container of crude oil spills in
the ocean. It has a mass of 4.10 kg. What is its
density? If 1 liter of ocean water has a density
of 1.03 kg, does the crude oil sink or float?
Explain.
Answer: The crude oil will float on the surface of the ocean water.
Explanation:
The density of the crude oil can be calculated by dividing its mass by its volume:
Density = mass / volume
Since the crude oil spilled from a 5-liter container and has a mass of 4.10 kg, its density can be calculated as:
Density = 4.10 kg / 5 L
Density = 0.82 kg/L
The density of ocean water is given as 1.03 kg/L. Since the density of crude oil is less than that of ocean water, the crude oil will float on the surface of the water. This is because less dense substances float on top of denser substances. Therefore, the crude oil will float on the surface of the ocean water.
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You are conducting a calorimetry experiment using a calorimeter with 500 mL of water in its outer chamber to determine the enthalpy of reaction of a chemical reaction. The initial temperature of the water was 25 °C. After the reaction, the temperature of the water was 57.4 °C. Disregarding any heat loss to the walls of the container, calculate the Hf). (The specific heat of the water is 4.18 J / (g⋅K).
The reaction's enthalpy change is -68496 J, or around -68.5 kJ.
What is enthalpy Reaction?The enthalpy of reaction for the chemical process using calorimetry:
q = -mCΔT
Where,
The volume of heat transported is q. (in joules)M is the substance's mass (in grams)The substance's specific heat capacity is expressed as C (in J/(gK)).T stands for temperature change (in K)calculate the change in temperature:
ΔT = Tfinal - Tinitial = 57.4 °C - 25 °C = 32.4 °C
The mass of water in the calorimeter =
= mass of water = volume × density
= 500 mL × 1 g/mL = 500 g
The amount of heat transferred:
q = -mCΔT = -(500 g)(4.18 J/(g·K))(32.4 K)
= -68496 J
What is enthalpy change?ΔH = -q = 68496 J {Q is negative because the reaction generated heat. As a result, the reaction's enthalpy change (H) is also negative}
Hence, the reaction's enthalpy change is -68496 J, or around -68.5 kJ. Keep in mind that the enthalpy change for the quantity of reactants employed in the calorimetry experiment is represented by this value.
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According to Reference Table G, which compound's solubility decreases most rapidly when the temperature increases from 50ºC to 70ºC?
Phosphorus burns in presence of chlorine to form phosphorus penta chloride.
Phosphorus burns in presence of chlorine to form phosphorus penta chloride. The balanced chemical equation for the reaction is given below:
[tex]\rm 2P + 5Cl_{2} \rightarrow 2PCl_{5}[/tex]
What is phosphorous pentachloride?The chemical compound having the formula PCl₅ is called phosphorus pentachloride. Together with PCl₃ and POCl₃, it is one of the most significant phosphorus chlorides. As a chlorinating agent, PCl₅ is employed.
Although commercial samples can be yellow and tainted with hydrogen chloride, it is a colorless, water-sensitive, and moisture-sensitive solid. The phosphorus chloride structures are always consistent with the VSEPR theory.
The environment has an impact on PCl₅'s structural makeup. A neutral molecule with trigonal bipyramidal geometry and (D₃h) symmetry, PCl₅ is gaseous and molten.
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Your question is incomplete. But your complete question probably was:
Phosphorus burns in presence of chlorine to form phosphorus penta chloride. Write the balanced equation for the reaction.
PLEASE HELP GIVING POINTS!
Answer is 6m
because you can see the line for a to b. it's was key answer by 6m
(PLEASE HELP) You push really hard against a round rock, but you cannot make it roll. Which statement best explains why you cannot move the rock? A Gravity pulls the rock toward the center of Earth. B The forces between you and the rock are balanced. c The force of your push is greater than the opposing force. d There is no friction to help you move the object.
Answer: The forces between you and the rock are balanced
Explanation:
Answer: your answer is A.)
Explanation:
How are advancements in chemistry related to technology?
PLEASE BE ACCURATE! Thank you very much!:)
Advancements in chemistry have played a critical role in advancing technology in a number of ways such as ;
PharmaceuticalsEnergyNanotechnologyWhat is the relationship of advancements in chemistry to technology?Overall, advancements in chemistry are essential for developing new technologies and improving existing ones. By understanding the fundamental properties of materials and substances, chemists can create new materials with unique properties and develop new technologies that can improve our lives.
In term of Energy, Chemistry is crucial for developing new forms of energy, including renewable energy sources like solar, wind, and biofuels. Chemistry also plays a vital role in energy storage, such as the development of high-capacity batteries and fuel cells.
In term of Pharmaceuticals, Chemistry is essential for developing new drugs and improving existing ones. For example, the development of new cancer drugs has revolutionized cancer treatment, and new antibiotics have been developed to combat drug-resistant bacteria.
In term of Nanotechnology, Chemistry is critical for the development of nanotechnology, which involves working with materials at the nanoscale. Nanotechnology has many potential applications, including in electronics, medicine, and energy storage.
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The elementary gas-phase reaction
(CH3)3COOC(CH3)3 → C2H6 + 2CH3COCH3
A → B + 2C
is carried out isothermally at 400 K in a flow reactor with no pressure drop. The specific reaction rate at 50°C is 10–4 min–1 (from pericosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127°C and a molar flow rate of 2. 5 mol/min, i. E. , FA = 2. 5 mol/min.
(a) Use the algorithm for molar flow rates to formulate and solve the problem. Plot FA, FB, FC, and then X as a function of plug-flow reactor volume and space time to achieve 90% conversion.
(b) Calculate the plug-flow volume and space time for a CSTR for 90% conversion
The molar flow rate of feed Fao = 2.5 mol/min
Performance equation for cstr gas phase first order reaction with conversion Xa = 0.9
A --> B + 2C
Volume expansion factor E =( 3-1)/1 = 2
Reaction rate constant at 50 C, k1 = 10-4 min-1
Activation energy Ea = 85 kj/mol
Entering pressure P= 10 atm
Temperature T2 = 127 C = 400k
Cao = P2/RT2 = 10 atm/(0.0821L.atm/mol.k)*400k = 0.3045 mol/L
By Arrhenius equation
Ln(k2/k1) = Ea/R *(1/T1 - 1/T2)
Ln(k2/10-4) = 85000/8.314*(1/323 - 1/400)
k2 = 1.77*10-4 min-1
The molar flow rate of feed Fao = 2.5 mol/min
Performance equation for cstr gas phase first order reaction with conversion Xa = 0.9
V/Fao = *Xa/(-rA) = Xa(1+EXa)/kCao(1-Xa)
V = Fao*Xa(1+EXa)/k2Cao(1-Xa)
V = 2.5*0.9(1+2*0.9)/1.77*10-4*0.3045(1-0.9)
V = 1168881 L = 1168.88 m3
volume of the reactor V = 1168.88m3
space time of the reactor,
Tou = V/vo = VCao/Fao= 1168881L*(0.3045mol/L)/(2.5mol/min) = 142369.74 min
b) reaction is reversible then,
Kc = [B][C]2/[A]
Kc = 0.025 mol2/dm6
Kc = CaoXae * (2*CaoXae)2/Cao(1-Xae)
0.025 = 4*0.30452Xae3/(1-Xae)
Xae3/(1-Xae) = 0.066
Put Xae = 0.35then it satisfies above equation
0.353/(1-0.35) = 0.0659
equilibrium conversion Xae = 0.35
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TASK 1 Metals A, B and B are given. Metal A is a stronger reducing agent than B. Metal B can displace metal 5 from solutions of its salts, but does not react with solutions of salts of A. Arrange metals A, B and In reducing their reduction capacity. We select om POAM two triplets meta- Au, koumo meet these conditions.
Here, the metal A displaces metal B from its solution. Hence, the metal A has lower positive reduction than B. Hence, the reduction potential of B is higher and it is less strong reducing agent.
What is reduction potential ?The reduction potential of a metal electrode is the measure of the tendency of it to lose or gain electrons and is the equilibrium potential difference developed due to separation of charges at the metal - solution interface when a metal is kept in contact with solution of its own.
The higher the negative reduction potential, greater the reducing capacity of the metal. Hence, metals with higher positive potential are easily reducing or they are strong oxidizing agents.
The metals with strong reducing power displaces other metals with lower reducing power from their solution. Here, A is strong reducing agent. Hence, it can displace B from its salt solution and B reduces to its metallic form.
Therefore, the order of A and B in reducing their reduction capacity is A>B.
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Pls I need help urgently. In case of water, which effect, adhesion or cohesion is the strongest? Explain
Answer: The adhesion of the molecules to the glass is stronger than the cohesion among the molecules.
Explanation:
Since water forms a concave up meniscus, the adhesion of the molecules to the glass is stronger than the cohesion among the molecules. However, in the absence of the adhesive force (when water reaches the tip of the glass), the cohesive force remains present. Thus cohesive force alone proves that it can still hold itself in place without pouring out of the cylinder. This example emphasizes the importance of that cohesive force and adhesive forces do not simply cancel each other out, yet it is the difference between the two that determines the characteristic of the liquid.
In the case of water, cohesion is stronger than adhesion. Cohesion refers to the intermolecular forces that bind water molecules to each other, while adhesion refers to the intermolecular forces that bind water molecules to a surface or material.
Water molecules are strongly attracted to each other due to hydrogen bonding, which is a type of intermolecular force that occurs between a hydrogen atom of one water molecule and an oxygen atom of another water molecule. These hydrogen bonds are responsible for the high surface tension of water and its ability to form drops or beads. In other words, the cohesive forces between water molecules are stronger than the adhesive forces between water and other materials.
However, the strength of adhesion in water can vary depending on the nature of the surface or material it comes into contact with. For example, water is strongly attracted to polar surfaces such as glass, which has a high affinity for water due to its polar nature. This is why water will form a meniscus or rise up a glass capillary tube through capillary action. On the other hand, water is less attracted to non-polar surfaces such as wax or oil, which have a low affinity for water, and will tend to bead up or form droplets on these surfaces.
In summary, while both cohesion and adhesion are important factors in determining the behavior of water, cohesion is stronger than adhesion in water due to the strong hydrogen bonding between water molecules.