Upon deprotonation with LDA (lithium diisopropylamide), the enolate that would be formed depends on the substrate used.
LDA is a strong base that can deprotonate a variety of carbonyl compounds such as ketones, aldehydes, and esters. The resulting enolate can be either kinetic or thermodynamic.
If a ketone is used as the substrate, the LDA will deprotonate the alpha carbon, forming the kinetic enolate. This is due to the steric hindrance of the carbonyl group, which makes it difficult for the base to reach the beta carbon.
This kinetic enolate is less stable, but forms faster due to the lower activation energy required.
If an ester is used, the LDA will deprotonate the beta carbon, forming the thermodynamic enolate. This is because the carbonyl group of the ester is less hindered, allowing for easier access to the beta carbon.
The thermodynamic enolate is more stable, but requires a higher activation energy to form.
In summary, the enolate formed upon deprotonation with LDA depends on the substrate used and can be either kinetic or thermodynamic.
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Upon deprotonation with LDA (lithium diisopropylamide), the enolate formed would depend on the specific substrate being used. Enolates can be formed from a variety of carbonyl compounds, including ketones, aldehydes, and esters. The enolate formed would have a negative charge on the oxygen atom and a double bond between the alpha carbon and the oxygen atom. The specific structure of the enolate would depend on the specific substrate and the conditions of the deprotonation reaction.
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So I have a question in science I need a few paragraphs done and I just need this explained. How dose the internal structure and the external features of organisms enhance their survival
The internal structure and external features of organisms have evolved to enhance their survival in various ways.
What does the internal structure of the organisms mean?Internal structure refers to the internal organs and systems of an organism, such as the circulatory, respiratory, and nervous systems. These systems work together to maintain the organism's homeostasis, or internal balance, which is necessary for survival.
For example, the circulatory system transports oxygen and nutrients to cells, while the respiratory system removes carbon dioxide and other waste products.
What does the external structure of the organisms mean?External features, such as body shape, coloration, and behavior, also play a role in an organism's survival. For example, camouflage can help an organism avoid predators, while bright colors can signal to potential mates. The shape of an organism can also be important for survival.
Overall, they work together to enhance the organism's chances of survival by allowing it to find food, avoid predators, and reproduce successfully.
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What are the three main types of cells located in the stomach?
Surface mucous cells (foveolar cells), parietal cells, chief cells are the three main types of cells located in stomach.
The stomach lining is covered by these cells' thick mucus, which shields it from the digestive juices. The stomach lining is always protected because the surface mucous cells continuously regenerate.
The gastric pits, which are primarily found in the fundus, the upper region of the stomach, contain parietal cells. They release hydrochloric acid, which aids in the digestion of meals.
The fungus, where the gastric glands are located, contains chief cells. They release digestive enzymes that aid in food digestion. Pepsinogen is secreted by the main cells. In the presence of hydrochloric acid, it turns into pepsin. Pepsin aids in the breakdown of proteins into little molecules called polypeptides.
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What type of reaction is 2SO₂ + O₂ ⇾ 2SO₃?
Answer:
the reaction is synthesis When two or more simple compounds combine to form a more complicated one. This is also known as a direct combination reaction.
Explanation:
Classify each statement as true or false. Drag the appropriate items to their respective bins. View Available Hint(s) Reset Help Period 3 elements have The valence electrons of group 5A The highest principal quantumThe valence electrons of group 2A six 2p electrons elements are in the 6s subshell. number of period 2 elements is 2. elements are in an s subshell. Period 4 elements have an completely full outer principal shells. inner electron configuration of [Ar]. number of period 3 elements is 4. Group 8A elements have The highest principal quantum Period 5 elements have an inner electron configuration of [Xe]. True False
The following are the true statements: Period 3 elements have The valence electrons of group 5A The highest principal quantum The valence electrons of group 2A six 2p electrons elements are in the 6s subshell. number of period 2 elements is 2
Valence electrons are placed in the outer most orbit of the atom and that orbit (shell) is called the valence shell. Let‟s take an example to identify them. Write the configuration of Oxygen 8O : 1s2 , 2s2 , 2p4
Oxygen has 6 electrons in its outer most orbit (2+4) that means it has 6 valence electrons and orbit 2 is called the valence shell. Now place these electrons in orbitals of their respective sub-shell.
Oxygen has 6 valence electrons and it needs 2 more electrons to achieve octet. The number of electrons needed to complete octet is termed as the valency of an element. This value can be obtained by subtracting the number of valence electrons from octet (8). So, the valency of Oxygen is 2. That means Oxygen is ready to share its 2 valence electrons or ready to accept 2 more electrons in order to achieve octet.
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When converting from moles to particles or moles to grams, you must...
A multiply
B subtract
C add
D divide
A. Multiply - When converting from moles to particles or moles to grams, you must multiply.
What is moles?Moles are small mammals that are found in many parts of the world. They are burrowing animals that live in underground tunnels and feed on insects, worms, and other small animals. Moles have small eyes and ears, and their fur is usually black or brown. They have large front feet with long claws that help them dig their tunnels. Moles are solitary animals and are active mainly at night. They are important to the environment because they aerate the soil and help control insect populations.
This is because moles are a unit of measurement that represent the number of particles or grams in a given substance. To convert from moles to particles or moles to grams, you must multiply the number of moles by the number of particles or grams in one mole of the substance.
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A concentration cell is a cell in which
a. the cell voltage never varies by more than 1.00 × 10−14 V.
b. the voltage is generated because of a difference in concentrations.
c. the concentrations of all cell components are all 1.00 M.
d. the concentrations of all cell components remain constant throughout the life of the cell.
e. none of these
A concentration cell is a cell in which the two half cells have the same electrodes but have the different concentration. so the correct option is e) none of these.
The concentration cell is the electrolytic cell that is made up of the two half - cells that have the same electrodes but different in the concentration. A concentration cell is dilute the concentrated solution and the concentrate more dilute solution. This creates the voltage when the cell reaches an equilibrium state.
Thus , a concentration cell is in which there is the two half cells and having the same electrodes. The concentration is different.
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Compare the atomic and ionic radius of chlorine
Answer:
Explanation:
vdW radius (nm) ionic radius of X- (nm)
Cl 0.175 0.181
Br 0.185 0.196
I 0.198 0.220
The formula for an ionic compound always indicates the _____ whole number ratio of positive to negative ions within the crystal.
The formula for ionic compound always indicate empirical formula. Empirical formula is the lowest number of the condition of the element present in a compound..
Why empirical formula is important?Empirical formula is formula represent the minimum condition of the reaction to happen between element. Empirical formula is commonly use to calculate the important value of a compound such as:
Molarity of the compoundMolality of the compoundMolecular formula of the compoundThe concentration of the compoundThe shift of the element present in the chemistry reactionThe number of negative ionThe number of positive ionLearn more about empirical formula here
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C. If you were to measure out 0.0237 moles of potassium nitrate into a clear, dry cup. How
many grams are in this sample? Show your work in the space below.
Molar mass of KNO3:
The molar mass of potassium nitrate is 101 g. Thus the mass of 0.0237 moles of potassium nitrate is 2.39 grams.
What is molar mass ?The mass of one mole of a compound is called its molar mass. A compound containing 6.022 × 10²³ atoms is called one mole of the compound.
Mass of potassium = 39 g/mol
mass of nitrogen = 14 g/mol
mass of oxygen = 16 g/mol
mass of 3 O = 48 g
molar mass of KNO₃ = 48 + 39 + 14 = 101 g/mol
The mass of one mole of KNO₃ is 101 g. Then mass of 0.0237 mole is:
0.0237 × 101 = 2.39 g.
Therefore, the mass of 0.0237 moles of potassium nitrate is 2.39 g.
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Calculate the number of moles in 2.4x10^46 molecules of Na ions
explain how you got your answer pls.
There would be 4 * 10^22 moles of the sodium ions.
What is the number of moles?We have to know that the number of moles of the ions can be obtained by the use of the formula for the Avogadro's number. From the Avogadro's number, we know that one mole of the substance is going to contain about 6.02 * 10^23 molecules of the sodium ions.
As such we have that;
If 1 mole can contain about 6.02 * 10^23 molecules of the sodium ions
x moles would contain 2.4x10^46 molecules of Na ions
x = 1 * 2.4x10^46/ 6.02 * 10^23
x = 4 * 10^22 moles
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A 0.32 m aqueous solution of an unknown solute has a density of 1.08 g/ml. the molar mass of the solute is 146.8 g/mol. What is the molality of this solution?
According to molar concentration , the molality of the solution up to second decimal place is 0.31 m.
What is molar concentration?Molar concentration is defined as a measure by which concentration of chemical substances present in a solution are determined. It is defined in particular reference to solute concentration in a solution . Most commonly used unit for molar concentration is moles/liter.The molar concentration depends on change in volume of the solution which is mainly due to thermal expansion.molarity = 0.32 mol of solute / 1 L solution.To find kg of solute-0.32 mol of solute x 146.8 g/mol = 46.976 g = 0.046976 kg. To find kg of solution: 1 L solution x (1000 mL / 1 L) x (1.08 g/mL) (1 kg / 1000 g) = 1.08 kg solution. To find kg of solvent: 1.08 kg solution - 0.046976 kg solute = 1.033 kg water.Thus, molality = 0.32 mol solute / 1.033 kg water = 0.31 mol/kgThus, molality = 0.32 mol solute / 1.033 kg water = 0.31 mol/kgTo learn more about molar concentration refers to:
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According to molar concentration, the molality of the solution up to second decimal place is 0.31m.
What is molar concentration?Molar concentration is defined as a measure by which concentration of chemical substances present in a solution are determined. It is defined in particular reference to solute concentration in a solution. Most commonly used unit for molar concentration is moles/liter. The molar concentration depends on change in volume of the solution which is mainly due to thermal expansion.
The use of molarity.Understanding a solution's molarity is important since it allows you to determine the actual concentration as well as whether the solution is diluted or concentrated. Measures of solution concentration include molality and molarity.
Determination of molality:Molarity = 0.32 mol of solute / 1 L solution.
To find kg of solute-0.32 mol of solute x 146.8 g/mol = 46.976 g = 0.046976 kg.
To find kg of solution: 1 L solution x (1000 mL / 1 L) x (1.08 g/mL) (1 kg / 1000 g) = 1.08 kg solution.
To find kg of solvent: 1.08 kg solution - 0.046976 kg solute = 1.033 kg water.
Thus, molality = 0.32 mol solute / 1.033 kg water = 0.31 mol/kg
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which group is selected as secondary suffix if -OH and -CHO both are present in same compound
In chemistry, a hydroxy or hydroxyl group is a functional group with the chemical formula -OH and consists of an oxygen atom covalently bonded to a hydrogen atom. In organic chemistry, alcohols and carboxylic acids contain one or more hydroxyl groups. In organic chemistry, an aldehyde is an organic compound containing a functional group with the structure R-CH=O. The functional group itself is sometimes called an aldehyde, but it can also be classified as a formyl group. Aldehydes are ubiquitous and play an important role in technology and biology. The group priority is -OCH3>OH>COOH>CHO. According to the F. Cahn-Ingold-Prelog system, a priority (1, 2, 3, or 4) is assigned in descending order of atomic number to the atoms directly bonded to the stereocenter the atom with the highest atomic number gets the highest priority.
Which items can be classified as matter? Check all that apply.
Answer:
a globe
snow rain clouds
what are 3 main eleme
Hydrogen
Magnesium
Iron
Helium
Sulfur
Copper
Aluminum
Argon
Xenon
etc.
what is the number of ammonia molecules made when 6 grams of hydrogen gas reacts with excess nitrogen? a. 24 x 10 ^ 23
b. 6 x 10 ^ 23
c. 12 x 10 ^ 23
d. 18 x 10 ^ 23
The number of ammonia molecules made when 6 grams of hydrogen gas reacts with excess nitrogen is 1.79 * 10^24. So the answer is (a) 24 x 10 ^ 23
The balanced equation for the reaction of hydrogen gas (H2) with nitrogen gas (N2) to form ammonia (NH3) is:
2H2 + N2 -> 2NH3
If the reaction uses 6 grams of hydrogen gas, we can use the molar mass of hydrogen (2.02 g/mol) to find the number of moles of hydrogen used in the reaction:
6 g / 2.02 g/mol = 2.97 mol
Since the equation states that 2 moles of hydrogen are needed to produce 2 moles of ammonia, then 2.97 moles of hydrogen will produce 2.97 moles of ammonia.
To find the number of ammonia molecules, we multiply the number of moles by Avogadro's number:
2.97 mol * 6.022 * 10^23 molecules/mol = 1.79 * 10^24
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This is the last set of questions for the assignment
5) The theoretical yield of H₂O is 36.04g.
6) The theoretical volume of CO2 produced is 0.005 L.
7) The mass of water produced is 0.981g.
What is the theoretical yield of a reaction?The theoretical yield of a reaction is the maximum amount of product that can be produced from a given amount of reactants, assuming that the reaction goes to completion. To calculate the theoretical yield, we need to know the balanced equation for the reaction and the amounts of reactants used.
5) Given and unknown:
The balanced equation for the reaction is 2 H2(g) + O2(g) → 2 H₂O(1)
The amount of H2 used is 6
The amount of O2 used is 30g
Steps:
1. Determine the limiting reactant: The limiting reactant is the reactant that will be completely consumed before the other reactant is consumed. In this case, the limiting reactant is H2 because 6g of H2 will react completely with 6g of O2, while 30g of O2 will still have some remaining.
2. Calculate the theoretical yield of the product: The theoretical yield of H2O can be calculated by using the stoichiometry of the reaction. The balanced equation tells us that 2 moles of H2 react with 1 mole of O2 to form 2 moles of H2O. We can use the molar mass of H2 and O2 to convert the given mass of each reactant to moles, and then use the balanced equation to determine the theoretical yield of H2O.
Solution:
· Molar mass of H2 = 2.02 g/mol
· Molar mass of O2 = 32 g/mol
· 6g of H2 is equal to 6/2.02 = 2.97 moles
· 30g of O2 is equal to 30/32 = 0.9375 moles
· Since H2 is the limiting reactant, the reaction will consume 2.97 moles of H2.
· Using the balanced equation, 2 moles of H2 will produce 2 moles of H2O
· Therefore, the theoretical yield of H2O is 2 x 18.02 = 36.04 g
· Therefore, the theoretical yield of H₂O is 36.04g.
6) Given and unknown:
The balanced equation for the reaction is 2 C2H6(g) + 7 O2(g) → 6 H2O(l) + 4 CO2(g)
The volume of C2H6 used is 0.42L
The volume of O2 used is 3.12L
The unknown is the theoretical volume of CO2 produced
Steps:
Convert the volumes of reactants to moles using the ideal gas laws PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant and T is the temperature.
Determine the limiting reactant: The limiting reactant is the reactant that will be completely consumed before the other reactant is consumed.
Use the balanced equation to calculate the number of moles of CO2 produced.
Convert the moles of CO2 to volume using the ideal gas laws PV = nRT
Solution:
Ideal gas constant R = 8.314 J/mol*K
Temperature T = 298 K
Pressure P = 1 atm
Molar mass of C2H6 = 30.07 g/mol
Molar mass of O2 = 32 g/mol
Molar mass of CO2 = 44 g/mol
0.42L of C2H6 is equal to 0.42 x (1 x 10^3) / (8.314 x 298) = 0.0058 mol
3.12L of O2 is equal to 3.12 x (1 x 10^3) / (8.314 x 298) = 0.0433 mol
From the balanced equation, we can see that for every 2 moles of C2H6, 4 moles of CO2 are produced.
Therefore, 0.0058 mol of C2H6 will produce 0.0058 x 2 = 0.0116 mol of CO2
Finally, 0.0116 mol of CO2 will produce 0.0116 x (44/1000) = 0.005L of CO2.
Therefore, the theoretical volume of CO2 produced is 0.005 L
7) Given and unknown:
The balanced equation for the reaction is 4 NH3(g) + 5 O2(g) → 4 NO(g) + 6 H₂O(1)
The mass of NH3 used is 1.54g
The mass of O2 used is 1.25g
The unknown is the mass of water produced
Steps:
Determine the limiting reactant: The limiting reactant is the reactant that will be completely consumed before the other reactant is consumed.
Use the balanced equation to calculate the number of moles of water produced.
Calculate the mass of water produced by using the molar mass of water
Solution:
Molar mass of NH3 = 17 g/mol
Molar mass of O2 = 32 g/mol
Molar mass of H2O = 18 g/mol
1.54g of NH3 is equal to 1.54 / 17 = 0.0906 mol
1.25g of O2 is equal to 1.25 / 32 = 0.0391 mol
From the balanced equation, we can see that for every 4 moles of NH3, 6 moles of H2O are produced.
Therefore, 0.0906 mol of NH3 will produce 0.0906 x 6 = 0.0544 mol of H2O
Finally, 0.0544 mol of H2O will produce 0.0544 x 18 = 0.981g of H2O
Therefore, the mass of water produced is 0.981g
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why is time an independent variable
Consider the physical and
chemical properties
shown on the SDS. At
what temperature will
Napthalene, a chemical
found in moth balls, melt?
A. 100 °C
B. 1.0253 °C
C. 217.9°C
D. 80.2 °C
Answer:
C
Explanation:
Don't think too much. Go with short to the point way... Melting point is always go with lowest point 80.2 degree C
For an element, how does Avogadro’s number connect the atomic and macroscopic scales?(1 point)
Responses
It describes the number of atoms in 1 gram of an element.
It describes the number of atoms in 1 gram of an element.
It describes the number of moles in 1 gram of an element.
It describes the number of moles in 1 gram of an element.
It describes the number of atoms in 1 mole of an element.
It describes the number of atoms in 1 mole of an element.
It describes the number of grams in 1 mole of an element
Answer:
It describes the number of atoms in 1 mole of an element.
Explanation:
Avogadro's number is simply a definition of a very large number. It is called a mole. It has no physical units. It simply means 6.02x10^23 of something. Anything. Atoms, molecules, paper clips, dollars, school buses, people waiting in line for a concert, etc. Anything. Similar words include billion, trillion, quintillion, picometer (look it up) and similar shorthand for very large numbers. "Santa received 1.8 moles of letters this past year" is an easier way of saying that he received 1,080,000,000,000,000,000,000,000 (or 1.08x10^24) letters. Publishers didn't like the idea that science books may be cluttered with such nonsense. And scientists have more fun things to do than wrtite out such long numbers [correctly], so the mole was invented. It's relationship to the Periodic Table and concept of molar mass is it's true value, but that isn't aksed in this question.
Which reaction will most likely take place based on the activity series?
Li > K > Ba > Ca > Na > Mn > Zn > Cr > Fe > Cd > Ni > H > Sb > Cu > Ag > Pd > Hg > Pt
A)Pt + FeCl3 Right arrow
B)Mn + CaO Right arrow.
C)Li + ZnCO3 Right arrow.
D)Cu + 2KNO3 Right arrow.
According to the activity series , the chemical equation which is correct or chemical reaction which will most likely take place is Li + ZnCO₃ as Li is more reactive than zinc and it will displace Zn from ZnCO₃.
What is chemical equation?Chemical equation is a symbolic representation of a chemical reaction which is written in the form of symbols and chemical formulas.The reactants are present on the left hand side while the products are present on the right hand side.
A plus sign is present between reactants and products if they are more than one in any case and an arrow is present pointing towards the product side which indicates the direction of the reaction .There are coefficients present next to the chemical symbols and formulas .
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What is the limiting reactant if 4. 0 g of nh3 react with 8. 0 g of oxygen? o2 because it produces only 0. 20 mol of no. Nh3 because it produces only 0. 20 mol of no. O2 because it produces two times less no than nh3. Nh3 because it produces three times more no than o2.
The limiting reactant if 4. 0 g of nh3 react with 8. 0 g of oxygen is Oxygen because it produces only 0. 20 mol of NO. the option A is correct.
The reactant that is present in a chemical reaction at a lower concentration than the other reactant and determines the production of the product is known as the limiting reactant.
Ammonia dissociation's balanced equation is:
4NH₃ +5O₂⇒ 4NO +6H₂O
To react with 5 moles of oxygen, 4 moles of ammonia are needed.
The moles are listed as:
moles = mass/ mass molar
The available moles of ammonia in 4 gram is:
moles NH₃ = 4 /17 = 0.23 moles
moles oxygen = 8 / 16 = 0.25 moles
The moles of oxygen required for 0.23 moles of ammonia are:
5/4 x 0.23 = 0.28 moles
The amount of oxygen that is needed is 0.28 mol, yet there are only 0.25 mol of oxygen that are readily available. So, the limiting reagent is oxygen.
Therefore, choice A is right.
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When two identical copies of DNA molecules are produced which are exactly the same as the original then this process of making copies of DNA is known as?
Replication is the process in which n two identical copies of DNA molecules are produced which are exactly the same as the original
It is the most basic step occuring in living organisms.
The opening of the double helix and separation of the DNA strands, priming of the template strand, and construction of the new DNA segment are the three main phases in replication.
The DNA double helix's two strands uncoil at a specific spot known as the origin during separation. Then, a number of proteins and enzymes combine to prime the strands for duplication. Finally, the building of the new DNA strands is organized by a unique enzyme known as DNA polymerase.
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The structure of 1,1,2,2-tetraiodosilane is as follows:
Strong heating has no effect on this substance. Long-term storage at room temperature is possible, but it must be kept dry because it interacts fast with moisture and water in the air.
On a large scale, it can be produced via the reaction of silicon or silicon carbide with iodine when heated to roughly 200 °C. The interaction of silane with iodine vapor at temperatures between 130 and 150 °C is of more academic interest because a variety of compounds, including iodosilane SiH3I, diiodosilane SiH2I2, and triiodosilane SiHI3, are produced. The liquid forms of these compounds are colorless at normal temperatures. [3] Iodoform, a related carbon compound that is a yellow solid at ambient temperature, can be easily separated from the final one.
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write the lewis structure for Ne. draw the particle by placing atoms on the grid and connecting them with bonds. include all lone pairs of electrons and nonbonding electrons
Lewis dot structure is used to represent the lone pairs of electrons and bonded pair of electrons in an atom or a molecule of an element.
The Lewis dot structure of an atom or molecule shows the valence shell electrons around the symbol of the element. The valence electrons are written in pairs and are written as dots. Neon belongs to the 18th group of the periodic table and thus is a noble gas. It has eight valence electrons. Lewis structures is also known as Lewis dot structures or electron dot structures are diagrams that represent the valence electrons of atoms within a molecule. The Lewis symbols and Lewis structures help visualize the valence electrons of atoms and molecules whether they exist as lone pairs or within bonds.
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Which of the following is an example of intermolecular forces?
hydrogen bonding
covalent bonding
lonic bonding
metallic bonding
The example of the intermolecular forces is the hydrogen bonding. The hydrogen bonding means the formation of the hydrogen bond.
The formation of the hydrogen bond is the hydrogen bonding. The hydrogen bonding is the intermolecular force due to the dipole - dipole interaction. It arises due the interaction between the hydrogen atom and the more electronegative atom bonded to it. The example of the hydrogen bonding is the water , that is H₂O. The hydrogen atom is bonded to the more electronegative atom that is oxygen.
The hydrogen bonding are of the two types :
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Draw the Lewis structure for Ato3 and use it to answer the following questions:
a) Predict the approximate bond order between At and O:__
b) Predict the hybridization of the central atom:__
The approximate bonding order of At and O can be predicted using the Lewis structure of Ato3
How does Lewis structure rule work?Lewis structure, also known as electron-dot framework, is a physical formula in which dots serve as placeholders for electrons; two dots across two atoms signify a covalent link. Gilbert Newton Lewis, the man behind its 1916 introduction, gave it its name.
What is a Lewis structure read like?The Lewis structure of water, or H2O, is shown here as an example. The atom's core electrons are represented by each symbol, along with the nucleus. A hydrogen atom's nucleus is represented by each "H" in this diagram, and an oxygen atom's nucleus and two core electrons are represented by each "O". The valence electrons in the dots are not in bonds.
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Classify the compounds as acids, bases, or salts.
Acid
HF
NH4Cl
H2C204
H2SO3
Base
Ca(OH)2
NaF
RbOH
Salt
CaCl2
Answer: Jhon cena licked my
Explanation:
HF, H[tex]_2[/tex]C[tex]_2[/tex]0[tex]_4[/tex] , H[tex]_2[/tex]SO[tex]_3[/tex] are acid. Ca(OH)[tex]_2[/tex], RbOH are base. NH[tex]_4[/tex]Cl, NaF, CaCl[tex]_2[/tex] are salts, among all the given options.
Numerous acids and bases are found in nature on a regular basis, including citric acid in citrus fruits like oranges and lemons, tartaric acid and tamarind, malic acid the apples, lactic acid and milk and dairy products, and hydrochloric acid and gastric fluids. Similar to acids, several bases are present, including lime water. In our daily lives, we utilise several of these acids, like vinegar and acetic acid within the kitchen, lactic acid for washing clothes, baking soda for cooking, washing soda to cleaning, etc. HF, H[tex]_2[/tex]C[tex]_2[/tex]0[tex]_4[/tex] , H[tex]_2[/tex]SO[tex]_3[/tex] are acid. Ca(OH)[tex]_2[/tex], RbOH are base. NH[tex]_4[/tex]Cl, NaF, CaCl[tex]_2[/tex] are salts,
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What is the limiting reactant in the balloon with 2.5g of baking soda and vinegar?
The limiting reactant in this reaction is the baking soda (sodium bicarbonate).
What is limiting reactant?A limiting reactant is a reactant in a chemical reaction that is completely consumed before the other reactants. It limits the amount of product that can be formed; the amount of product created is directly proportional to the amount of the limiting reactant present. The term is also known as the limiting reagent. This concept is used in stoichiometry, which is the calculation of the amount of product that can be formed from a given amount of reactants.
This is because it takes more moles of baking soda (NaHCO3) than vinegar (CH3COOH) to cause the reaction to occur. Since there are only 2.5g of baking soda present, it will be used up first and the reaction will stop once all the baking soda has been used.
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I'm a little confused so can someone check my answers-
1. Which of the following is true about alchemists and alchemy?
Alchemy is a science.
Chemistry developed into alchemy.
Alchemists tried to turn metals into gold. (My answer)
Robert Boyle was an alchemist.
2. Which of the following is alchemy?
A medieval pseudoscience that tried to find ways to change ordinary metals into gold. (My answer)
The discovery that atoms have a unique structure of protons, neutrons, and electrons.
A systematic process of gaining knowledge by observing and testing.
The modern science of chemistry.
3. In which case are medicines based on science rather than pseudoscience?
If the medicines save lives or help many people.
If the medicines have been evaluated using unbiased tests. (My answer)
If the people who create the medicines have science or medical degrees.
If the medicines have been used for many years.
4. Which option describes a science question?
One that can be answered through hypotheses.
One that can be answered through inferences.
One that can be answered by observations of nature.
One that can be answered by investigation. (My answer)
5. Which inference can be made from the fact that Fritz Haber received a Nobel Prize in 1918?
The Haber-Bosch process was an important scientific development.
The Haber-Bosch process was used to make explosives in World War I. (My answer)
The Haber-Bosch process made the world more peaceful.
The Haber-Bosch process initially only made small quantities of ammonia.
Any help with this is appreciated
True- Alchemists tried to turn metals into gold. True-If the medicines have been evaluated using unbiased tests.
Which of the following is alchemy?True- A medieval pseudoscience that tried to find ways to change ordinary metals into gold.
Alchemy is a historical philosophical and proto scientific tradition that was practiced in China, India, the Muslim world, and Europe. It is an old branch of natural philosophy also.
In the early few centuries AD, a handful of pseudo epigraphical works produced in Greco-Roman Egypt are the first to mention alchemy in its Western form.
Which inference can be made from the fact that Fritz Haber received a Nobel Prize in 1918
The Haber-Bosch process was used to make explosives in World War I and The Haber-Bosch process was an important scientific development.
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What happened for the model of the atom to change?
The atomic model changes over time because the atomic model was based on theories and discoveries.
Dalton's Atomic ModelThe simplest atomic model is the Dalton atomic model, which was put forward by John Dalton, a British scientist. According to this atomic model, atoms are solid balls that have no charge. In addition, according to this atomic theory, the atom is the smallest unit that cannot be divided again. Different chemical elements will have different types of atoms.
Unfortunately, Dalton's theory cannot explain how atoms as solid balls can conduct electric current. In fact, electricity is electrons in motion. He could not prove other particles that conduct electric current. Dalton's theory was followed hundreds of years later until it was finally broken by later scientists.
Thompson's Atomic ModelThe second atomic model is the Thompson atomic model. As the name implies, this atomic model was discovered by Joseph John Thompson. Thompson's atomic model is shaped like a raisin bun. That's because the atom is a positively charged solid ball with negative particles (electrons) scattered in it. In addition, the number of positive and negative charges on the atom is the same. This atomic model was proven by Thomson's research using cathode ray tubes.
Unfortunately, Thomson's model of the atom cannot explain the arrangement of positive and negative charges in an atom.
Rutherford's Model of the AtomRutherford's atomic model put forward by Ernest Rutherford in 1911. In this atomic theory, each atom contains a positively charged atomic nucleus with electrons surrounding it in its trajectory. In addition, this atomic mass is concentrated in the atomic nucleus and most of the atomic volume is empty space, you know. This was proven from the results of an experiment on firing metal by alpha rays, which is also known as the Geiger-Marsden Experiment.
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