what happens if you use too much solvent for a recrystallization?
It is important to use the correct amount of solvent for recrystallization to achieve a good yield and a high level of purity of the final product. The correct amount of solvent depends on the solubility of the compound, which can be determined through prior testing and experimentation.
What is Recrystallization?
Recrystallization is a common laboratory technique used to purify solid compounds. The process involves dissolving a solid compound in a solvent, and then allowing the compound to crystallize as the solution cools, thereby separating it from impurities that may be present.
If too much solvent is used for a recrystallization, it can lead to several negative outcomes:
Poor Yield: A very common issue associated with using too much solvent for recrystallization is that it can lead to a low yield. If the amount of solvent is much more than what is needed, the solubility of the compound may increase, and some of the material will remain in the solution rather than crystallizing out. This results in a lower yield of purified crystals.
Low Purity: If too much solvent is used, it can result in the formation of smaller or less pure crystals, as the solubility of impurities may also increase. When the solvent cools and the crystals form, the impurities can become trapped within the crystal structure or coat the surface of the crystals, reducing their purity.
Increased Time and Effort: Using too much solvent can also increase the time and effort required for recrystallization. Since more solvent is needed to dissolve the compound, it takes more time to heat and dissolve the compound. Additionally, more solvent also means longer filtration and drying times, which can prolong the purification process.
Increased Costs: Using too much solvent can increase the cost of the process as it requires more solvent and more energy to heat and evaporate the solvent.
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How many ions would you expect MgBr2 to break down into in water?
a.2
b.3
c.1
d.4
The number of the ions in the MgBr₂ to break down into in the water is the correct option is b. 3.
The ions dissociation of the MgBr₂ is follows :
MgBr₂ ---> Mg²⁺ + 2Br⁻
The MgBr₂ is the ionic compound. The ionic compound are formed between the atoms by the complete transfer of the electrons, The Mg is the metal and it has tendency to donate the electrons and the Br is the non metal and it has tendency to accept the electrons. The Mg donates the electrons and the Br accept the electrons and forms the ionic compound that is magnesium bromide.
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What are the 12 types of chemical reactions?
The re are following 12 types of chemical reactions are:
1. Thermal Decomposition Reaction - A → B + C
2. Decomposition Reaction - AB → A + B
3. Single Displacement or Substitution Reaction - A + BC → B + AC
4. Double Displacement or Metathesis Reaction - AB + CD → AD + CB
5. Redox Reaction or Oxidation-Reduction Reaction - A + B → AB or A + B → A + B
6. Acid-Base Neutralization Reaction - HX + MOH → MX + H2O
7. Precipitation Reaction - AB + CD → AD + CB (formation of a solid)
8. Neutralization Reaction - Acid + Base → Salt + Water
9. Photochemical Reaction - A + hν → B + C
10. Combination or Synthesis Reaction - A + B → AB
11. Electrolysis Reaction - AB → A + B
12. Biological Reactions - Photosynthesis, Respiration, Digestion, etc.
It is important to say that some of these reactions may overlap or happens simultaneously.
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select all the attractive forces associated with solid nacl salt.a. Ion-Dipole b. H-Bonding c. London Disperson d. Dipole-Dipole e. Lonic Bonding
Ion-dipole is the attractive force connected to solid NaCl salt.
Define covalent bond.
While hydrogen bonds are intermolecular forces between the hydrogen atoms linked to a nitrogen, oxygen, or fluorine of one molecule and a negative dipole of another, covalent bonds are intramolecular forces that are often between two nonmetals.
These intramolecular forces are created by the ionic interactions that exist between the sodium cation and the chloride anion in the inorganic salt sodium chloride. Electrostatic attraction between oppositely charged ions causes them to coalesce into molecules. Ions are created when a species either loses or gets electrons to create a positively charged ion (also known as a cation) or a negatively charged ion (also known as an anion). Ion-dipole interaction is demonstrated by the interaction of a Na+ ion with water (H2O).
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What is the molar mass of K2SO4?
The molar mass of K₂SO₄, also known as potassium sulfate, is 174.259 g/mol.
This is calculated by adding the atomic masses of each element in the compound, which are 2 potassium (K) atoms with a combined mass of 78.196 g/mol, 1 sulfur (S) atom with a mass of 32.066 g/mol, and 4 oxygen (O) atoms with a combined mass of 64.997 g/mol.
The resulting sum is 175.259 g/mol, but since the compound has a formula unit of K₂SO₄, we divide by 2 to obtain the molar mass of one unit, which is 174.259 g/mol. The molar mass is an important quantity in chemistry as it allows for conversion between mass and moles of a substance, which is crucial for chemical reactions and stoichiometry.
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what is calcium element symbol?
Answer:
Ca
Explanation:
Element number 20
Classify the steps involved in the formation of a solution as being endothermic or exothermic. Drag the item to the appropriate bin.
Steps which are involved in formation of a solution as endothermic are separation of solute molecules ,separation of solvent molecules and exothermic is formation of solute-solvent interactions.
In thermochemistry, an exothermic response is a "reaction for which the general standard enthalpy change ΔH° is negative." Exothermic responses normally discharge heat. The term is frequently mistaken for exergonic response, which IUPAC characterizes as "... a response for which the general standard Gibbs energy change ΔG° is negative."
A firmly exothermic reaction will as a rule likewise be exothermic on the grounds that ΔH° makes a significant commitment to ΔG°. The greater part of the fantastic substance responses that are exhibited in study halls are exothermic and endothermic. The inverse is an endothermic reaction, which ordinarily takes up heat and is driven by an entropy expansion in the framework.
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Calculate the bond order for one carbon-carbon bond in the benzene molecule, taking σ and π bonding into consideration?
the bond order for one carbon-carbon bond in the benzene molecule, taking σ and π bonding into consideration will be 1.5.
In the benzene molecule, there are 6 carbon atoms arranged in a hexagonal ring, with alternating single and double bonds. Each carbon atom is covalently bonded to two other carbon atoms, with one single bond and one double bond.
To calculate the bond order for one carbon-carbon bond in benzene, we need to take into account both the σ (sigma) and π (pi) bonding. The σ bond is formed by the overlap of two atomic orbitals along the internuclear axis, while the π bond is formed by the overlap of two atomic orbitals perpendicular to the internuclear axis.
In the case of benzene, each carbon-carbon bond has one σ bond and one π bond. The total bond order for each bond can be calculated as the sum of the bond orders for the σ and π bonds. The bond order for a σ bond is 1, while the bond order for a π bond is 0.5.
Therefore, the bond order for one carbon-carbon bond in the benzene molecule is:
Bond order = (σ bond order) + (π bond order) = 1 + 0.5 = 1.5
So the bond order for one carbon-carbon bond in the benzene molecule is 1.5.
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What is important to remember when using oil immersion?
It's important to utilise immersion oil that is properly matched when employing oil aims. Use only oil that is advised by the unbiased manufacturer.
What is oil immersion?In the absence of oil, light waves bounce off the slide specimen and travel through the glass cover slip, across the atmosphere, and into the microscope lens . When a wave encounters a new substance, unless it exits at a 90-degree angle, it bends, with the amount of bend depending on the angle. The result warps the image. Oil has a more glass-like index of refraction than does air, which results in a smaller bend. Air has a considerably different index of refraction from glass. An oil-immersed lens can be almost as effective as one made completely of glass because specially prepared oil can have a refractive index that is nearly identical to that of glass (which would be impractical).
Transparent oils with particular optical properties called immersion oils.
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How do you find functional groups in IR spectrum?
To find functional groups in an IR spectrum, you need to identify characteristic absorption peaks associated with specific functional groups.
This can be done by comparing the observed spectrum to reference spectra or by using IR spectroscopy databases. Common functional groups and their associated absorption peaks include: carbonyl groups (1700-1750 cm^-1), hydroxyl groups (3200-3600 cm^-1), and amine groups (3200-3500 cm^-1).
Additionally, the presence or absence of certain peaks can indicate the presence or absence of specific functional groups. Overall, identifying functional groups in an IR spectrum requires knowledge of the characteristic absorption peaks associated with those groups and the ability to interpret the observed peaks in the context of the molecule being studied.
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Why is a direct comparison of station pressures difficult? 1. Station pressures change abruptly over small horizontal distances even when there is no appreciable change in elevation. 2. Weather stations are often at different altitudes 3. Aneroid barometers are extremely inaccurate 4. All of the above
The pressure that can be measured at a particular height and is considered to be a location's actual barometric pressure is called station pressure.
What are the benefits of pressure altitude?Aircraft performance and flight levels are both based on pressure altitude, which is crucial for aircraft operating at or above 18,000 feet. Pressure altitude is adjusted for non-standard temperature to produce density altitude.
The pressure that can be measured at a particular height and is considered to be a location's actual barometric pressure is called station pressure. In radio and television broadcasts, the pressure reading that is most frequently heard is the altimeter setting. The barometric pressure at a station is not accurate.
Even when there is no discernible change in elevation, station pressures quickly shift across short horizontal distances.
The station pressure, which is the actual barometric pressure of a location, is the pressure that is measured at a particular elevation. The pressure indication that is most frequently heard in radio and television broadcasts is the altimeter setting. It is not the station's actual barometric pressure.
Therefore, the correct answer is option 4. All of the above.
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Help pls Which statement ,begin emphasis,best,end emphasis, describes the change that occurs when a gas becomes a liquid?
Answer options with 5 options
A.
There is a decrease in energy which causes a decrease in molecular motion resulting in a decrease in temperature.
B.
There is a decrease in energy which causes a decrease in molecular motion resulting in an increase in temperature.
C.
There is an increase in energy which causes an increase in molecular motion resulting in an increase in temperature.
D.
There is an increase in energy which causes an increase in molecular motion resulting in a decrease in temperature.
E.
There is a decrease in energy which causes an increase in molecular motion resulting in a decrease in temperature.
Answer:
B
Explanation:
becauuse a decrease in molecular action decrease energy energy leading to increase in temperature temperature
NMR signals may consist of a single peak, or they may be __ into several peaks. The number of peaks for a particular signal is called its __.
NMR signals can either be composed of a single peak or many peaks. A signal's multiplicity is defined as the total number of peaks for that signal.
What is meant by NMR signals?Nuclear magnetic resonance spectroscopy, also referred to as magnetic resonance spectroscopy or NMR spectroscopy, is a spectroscopic method for observing the local magnetic fields surrounding atomic nuclei.
The number of distinct types of protons in a molecule is represented by the number of NMR signals. This is the illustration we used to explain NMR spectroscopy: There are five signals in the spectrum, each of which points to a distinct sort of proton.
By counting the amount of distinct hydrogens on one side of the symmetry plane, it is possible to estimate how many signals these molecules emit in a 1H NMR spectrum.
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What types of molecules do cells use for long-term energy storage? Select all that apply.
Cells use lipids, such as fatty acids and triglycerides, for long-term energy storage. The correct answer A.
These molecules are broken down in the cells to release energy when needed. Additionally, cells can also store energy in the form of polysaccharides such as glycogen, which can be broken down and used for energy when required.
Lipids are molecules that contain hydrocarbons and are the building blocks of fats, which are the primary form of energy storage in cells. Fatty acids are stored as triglycerides, which are composed of three fatty acid molecules and one glycerol molecule. When these molecules are broken down, the energy stored in them is released and can be used to fuel cell processes.
Complete questions:
What types of molecules do cells use for long-term energy storage? Select all that apply.
A)lipids
B)proteins
C)amino acids
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Label the oxidation-reduction and ion-exchange processes involved in the diagram with suitable equations.
The oxidation-reduction and ion-exchange processes involved in the diagram are as follows:
oxidation-reduction: Ca ---> CaOoxidation-reduction: Ca ---> CaCl₂ ion-exchange: Ca(OH)₂ ---> CaCl₂ ion-exchange: CaCl₂ ---> AgClWhat are oxidation-reduction reactions?Oxidation-reduction or Redox reactions involve a shift in the oxidation state of the substrate. When electrons are lost or the oxidation state increases, it is called oxidation; when they are gained or the oxidation state decreases, it is called reduction.
Ion exchange is a chemical reaction in which different ions with similar charges in solution are swapped for free mobile ions of a solid, the ion exchanger.
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proton a couples to proton b. proton a posseses a j-value of 3.0 hz. what do you expect the j-value proton b posseses to be?
We would expect the J-value of proton B to also be 3.0 Hz.
What is the J-value constant?
In nuclear magnetic resonance (NMR) spectroscopy, J-value (also known as J-coupling or coupling constant) refers to the strength of the magnetic interaction between two neighboring nuclei. It is measured in Hertz (Hz) and represents the frequency difference between two energy states of the coupled nuclei.
J-coupling arises from the interaction between the magnetic moments of two nuclei when they are bonded to the same carbon atom in a molecule. The magnitude of the J-coupling constant depends on the distance and bond angle between the nuclei, as well as the electron distribution in the molecule.
If proton A couples to proton B with a J-value of 3.0 Hz, then proton B should also couple to proton A with the same J-value. This is because the J-coupling constant describes the strength of the interaction between the two coupled nuclei and is independent of which nucleus is being observed.
Therefore, we would expect the J-value of proton B to also be 3.0 Hz.
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Calculate the molar mass of oxalic acid (C = 12u, O = 16u, H = 1u)
The molar mass of a molecule say oxalic acid, C₂H₂O₄ is equals to the ninety grams per mole, i.e., 90 g/mol.
Molar mass of any molecule is the addition of the masses of the individual atoms present in that molecule within the quantities in which it is present. We have a molecule of oxalic acid and we have to calculate it's molar mass. Oxalic acid is a organic molecule consisting of carbon, hydrogen and oxygen. The molecular formula for oxalic acid is C₂H₂O₄. The atomic mass of oxalic acid is the sum of atomic mass of 2 carbon atoms, 2 hydrogen atoms, and 4 oxygen atoms. Now atomic mass of carbon (C) atom = 12 g/mol, Atomic mass of Hydrogen (H) = 1 g/mol, and Atomic mass of oxygen (O) atom = 16 g/mol.
The molar mass of oxalic acid = (2 (C) + 2 (H) + 4 (O) )g/mol
Molar mass of oxalic acid = (2 (12) + 2 (1) + 4 (16)) g/mol
= 24 + 2 + 64 g/mol
= 90 g/mol
Hence, the required molar mass of oxalic acid is 90 grams per mole.
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A pipet is used to measure out 10 mL of water. If the mass of this volume of water is 9.990 g and the density of water is given as 0.9978 g/mL, what is the actual volume of water measured out?
A. 10.000 mL
B. 9.990 mL
C. The actual volume measured out is impossible to tell
D. 10.012 mL
A pipet is used to measure out 10 mL of water. If the mass of this volume of water is 9.990 g and the density of water is given as 0.9978 g/mL, then the actual volume of water measured is 10.012 mL. The correct answer is D.
The question gives us the mass and density of the water, and asks us to find the actual volume of water measured using a pipet. To do this, we can use the formula for density, which relates the mass and volume of a substance, and is given by the following formula:
density = mass/volume
Rearranging this formula, we get:
volume = mass/density
volume = 9.990 g / 0.9978 g/mL
volume = 10.012 mL
So the actual volume of water measured out is 10.012 mL.
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How many lone pairs does CH3OH have?
CH3OH has two lone pairs, both of which are on the oxygen atom.
The core atom in CH3OH (methanol) is carbon (C), which possesses four valence electrons. Methanol is made up of three hydrogen atoms, one carbon atom, and one oxygen atom. Since oxygen has six valence electrons and likes to create two covalent bonds with other atoms, oxygen forms two single bonds with the carbon atom in methanol.
Each of methanol's three hydrogen atoms creates a single connection with the carbon atom. This leaves the oxygen atom with two pairs of unshared electrons, or lone pairs, one on each side. These two lone pairs on the oxygen atom form no chemical connections with the other atoms in the molecule.
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The two atoms in a water molecule are arranged asymmetrically.
a. True
b. False
The given statement is "The two atoms in a water molecule are arranged asymmetrically" is true as the two hydrogen atoms are arranged asymmetrically. The correct option is a.
In the water molecule, the oxygen atom (O) and the two hydrogen atoms (H) are arranged as the asymmetrically. This will produces the dipole, the molecule with the one negatively and the one positively charged end. It will depending on the temperature, the dipoles align themselves in to the aggregates according to the charge, such as, in the formation of the ice crystal.
Water is the polar molecule, this is due to the O-H bond of the water, Oxygen is the more electronegative due to which the partial positive charge and the partial negative charge will created on the hydrogen and the oxygen, this resulting in the dipole moment. Therefore, the correct option is a.
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What is an ICE table?
An ICE (Initial, Change, Equilibrium) table is simple matrix formalism that used to simplify the calculations in reversible equilibrium reactions (e.g., weak acids and weak bases or complex ion formation).
In most cases, ICE tables are used to calculate the K, or equilibrium constant expression, of a reaction (in some cases, K may be given, and one or more of the concentrations in the table will be the unknown to be solved for). ICE tables are made up of the concentrations of molecules in solution at various stages of a reaction. The variables and constants required to calculate the unknown are automatically set up and organized in ICE tables.
The first column of the table's titles are abbreviated as ICE.
Initial focus is denoted by the letter I. The initial product and reactant concentrations are listed in this row.
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What is the strongest NSAID?
Non-selective COX inhibitors, such as indomethacin, ketorolac, and diclofenac, are often regarded as the most powerful NSAIDs and are frequently used to treat acute pain and inflammation.
Nonsteroidal anti-inflammatory medicines (NSAIDs) are a group of medications used to treat pain, fever, and inflammation. They function by inhibiting the activity of an enzyme known as cyclooxygenase (COX), which is responsible for the production of prostaglandins, a kind of hormone involved in pain and inflammation.
There are several forms of NSAIDs, each with its own potency, dose, and duration of effect. Non-selective COX inhibitors, such as indomethacin, ketorolac, and diclofenac, are often regarded as the most powerful NSAIDs and are frequently used to treat acute pain and inflammation. These medications act by inhibiting both COX-1 and COX-2 enzymes, which can result in more pain relief but also increases the risk of adverse effects.
Some NSAIDs, such as ibuprofen and naproxen, are useful in reducing pain and inflammation but are thought to be less powerful than non-selective COX inhibitors. These medications act by primarily inhibiting COX-2, which reduces the likelihood of certain adverse effects such as stomach ulcers and bleeding.
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the nitrogen bases are held together in the center of the molecule by
In the DNA ,the nitrogen bases are held together in the center of the molecule by the hydrogen bond.
The nitrogen bases are held together in the center of the DNA molecule by the hydrogen bond. The hydrogen bond that is the H - bond binds the nitrogen bases in between the two strands of the DNA. There are the two hydrogen bonds that is present in between the A and the T and the three hydrogen bond in between the G and the C.
The hydrogen bond in the DNA held together the nitrogen bases in the center of the molecule.
This question is incomplete, the complete question is :
In the DNA ,the nitrogen bases are held together in the center of the molecule by ?
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Is the atomic mass of copper is 64?
No, the atomic mass of copper is not 64. The atomic mass of copper is approximately 63.546 atomic mass units (amu).
Copper has an atomic mass of around 63.546 atomic mass units (amu). The mass of all naturally occurring copper isotopes, weighted to account for their respective abundances, is represented by this value.
Copper-63, which accounts for around 69% of naturally occurring copper, is the most prevalent isotope of the metal. Copper-65 makes up the remaining 31%. Copper-63 has an atomic mass of around 62.93 amu, while copper-65 has an atomic mass of roughly 64.93 amu. The resultant atomic mass is roughly 63.546 amu when these two isotopes are averaged together, taking into consideration their relative abundances. Chemically speaking, copper is an element with the symbol Cu and the atomic number 29. It has a very high thermal conductivity and electrical conductivity and is a soft, malleable, and ductile metal.
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For a 5 mm NMR tube, the solvent should be about ________ cm deep.
A. 4
B. 0.5 - 1
C. 10
D. < 0.5
For a 5 mm NMR tube, the solvent should be about 4 cm deep. So, correct option is A.
A well prepared NMR tube solution is significant for obtaining quality spectra.
Decision of Dissolvable:
NMR tests are customarily finished in deuterated solvents, yet you can gather usable spectra in non-deuterated solvents (no-D NMR) also. While choosing a NMR dissolvable, consider:
Dissolvability
The dissolvable's compound shift. Will the leftover dissolvable sign disrupt test resonances. Substance shifts are dissolvable ward, so if you need to contrast your outcomes and a distributed range, ensure you utilize a similar dissolvable.
Dissolvable Virtue:
Numerous deuterated solvents are accessible to buy in the Science stockroom. The "%" esteem on a NMR dissolvable jug alludes to the degree of deuteration, not virtue. On the off chance that you have an especially requesting application you might need to purge the dissolvable. In the event that you have a water-delicate analyte you should dry the dissolvable preceding use. We suggest 3 Å, Linde-type, tube shaped sub-atomic strainers.
The standard round sifters will generally deliver dust, which can prompt shimming issues. Enact the strainers in a drying stove and cool inside a desiccator prior to adding them to your dissolvable. Wrap parafilm around the covers of dissolvable containers to prevent dampness from getting in. Note: Parafilm is great for keeping water out however it won't keep apolar solvents in your cylinder.
Hence,correct option is A.
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Mark was told his dinner would be ready at 6:00 he left his house at 12:00 and traveled in his car at an average speed of 45mph to his moms house 300 miles away did mark make it to dinner on time
Given that he traveled at an average speed of 45mph to his mom's house, Mark did not make it to dinner on time because he arrived at 6:40 pm.
To find out how long it took Mark to travel 300 miles at an average speed of 45mph, we can use the formula:
Distance = Average speed × Time
Rearranging the formula to solve for time, we get:
Time = Distance / Average speed
Plugging in the given values:
Time = 300 miles / 45mph
Time = 20/3 hours = 6 hrs and 40 mins
Since Mark left his house at 12:00, he would arrive at his mom's house at 6:40 (12:00 + 6.67 hours), which is 40 minutes after dinner was supposed to be ready at 6:00. Therefore, Mark did not make it to dinner on time.
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Magnesium chloride crystals can be used by reaction which insuluble base with an acid?
Magnesium chloride crystals can be formed by reacting an insoluble base with an acid. The reaction can be represented by the following equation:
[tex]Mg(OH)2 + 2HCl → MgCl2 + 2H2O[/tex]In this reaction, magnesium hydroxide (Mg(OH)₂) is the insoluble base and hydrochloric acid (HCl) is the acid. When these two substances react, they produce magnesium chloride (MgCl₂) and water (H₂O).
The magnesium chloride formed in this reaction is in the form of crystals. The crystals form because the reaction produces an excess of ions, which then attract to each other and form a lattice-like structure. This is known as crystallization. The magnesium chloride crystals are colorless and have a salty taste.
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What is the name of the compound with the formula Na2SO4?
Answer:
Jagdish is 3 years younger than Resham and Rajesh is 5 years older than Jagdish. If the product of present age of Resham and Rajesh is 960.How old is Jagdish
Definition- a depiction of valence electrons around the symbol of an element- a diagram that shows valence electrons as dotA. Metalic BondsB. Electron Dot StructureC. Valence ElectronD. Coordination Number
The depiction of valence electrons around the symbol of an element as dots is called an "Electron Dot Structure". Option B is the correct answer.
The Electron Dot Structure, also known as Lewis dot diagram, is a shorthand notation that represents the valence electrons of an atom as dots surrounding the atomic symbol.
The number of valence electrons is determined by the group number of the element in the periodic table. The Electron Dot Structure is used to predict the chemical bonding behavior of an element and to understand the basic properties of compounds formed from those elements.
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What does the captain do when Dr. Livesey stands up to him in chapters 1-3 of Treasure Island?
A. He takes out a knife and stabs Dr. Livesey.
B. He laughs and pours Dr. Livesey a glass of rum.
C. He takes out a knife, but decides to put it away and does nothing.
D. He pours Dr. Livesey a glass of rum, but throws it in his face, pretending it was an accident
The captain when Dr. Livesey stands up to him in Chapters 1-3 of Treasure Island, He pulls out a knife, but decides to put it away and does nothing. The correct answer C.
In chapters 1-3 of Treasure Island, when Dr. Livesey stands up to the captain, the captain initially reacts aggressively by taking out a knife. However, he ultimately decides to put it away and does nothing.
This shows that the captain is a volatile and unpredictable character, but also that he is capable of exercising restraint when necessary..
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