The main reason for adding solvent slowly to a volumetric flask is to ensure that the final volume of the solution is accurate and precise.
What is the purpose of using a volumetric flask?Volumetric flasks are designed to contain a specific volume of liquid at a particular temperature and require careful handling to achieve the desired result. By adding solvent slowly and with care, the final volume can be precisely measured and controlled, reducing the risk of error and ensuring that the concentration of the solution is accurate. Additionally, adding solvent slowly helps to minimize the formation of air bubbles, which can affect the final volume of the solution and its accuracy. Overall, adding solvent slowly to a volumetric flask is an important step in achieving accurate and precise measurements in chemical experiments.
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What is predicted to be the typical 1H-NMR chemical shift for methyl protons adjacent to an ether oxygen
The typical 1H-NMR chemical shift for methyl protons adjacent to ether oxygen is in the range of 3.3-3.7 ppm. This chemical shift range is consistent across a variety of different types of ethers, including cyclic ethers and alkyl ethers.
Due to the nearby ether oxygen's ability to remove electrons, this chemical shift range develops. The alkyl chain's carbon atoms are more electronegative than the oxygen atom, which has a deshielding impact on the methyl protons. The protons thus encounter a stronger magnetic field, which raises the chemical shift value.
It's important to keep in mind that the methyl protons' chemical shift can be influenced by the ether oxygen's chemical surroundings. The chemical shift, for instance, might alter slightly if the ether oxygen is a component of a larger functional group, like a carboxylic acid or an ester, because of the additional electrical effects of that group. However, typically, the 3.3–3.7 ppm chemical shift range is a good starting point for predicting the chemical shift of methyl protons adjacent to ether oxygen.
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lithium one of the major chemical building blocks of modern life
True or False
The given statement is "lithium one of the major chemical building blocks of modern life" is false. Lithium is not the budling block of the modern life.
The Lithium is not one of the major chemical the budling block of the modern life. The building blocks of the modern life is the carbon , oxygen, and the nitrogen. There are the six main elements that are the fundamental unit of the building blocks of the life. The order of the buildings blocks of the modern life from the least common to the most common is as follows :
The sulfur, the phosphorous, the oxygen, the nitrogen, the carbon, and the hydrogen.
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Which of the pairs of amino acids can form a salt bridge at physiological pH?aspartic acid and histidineglutamic acid and aspartic acidtwo cysteinesarginine and tyrosinelysine and glutamic acid
The pair of amino acids which can form a salt bridge at physiological pH is glutamic acid and aspartic acid.
What are amino acids?Amino acids are defined as the substances which are considered to be the monomers of proteins.Every amino acid has the same structure consisting of a central carbon which is bonded to an amino group , carboxyl group and a hydrogen.
Each amino acid also has another atom or a group of atoms bonded to the alpha carbon which are also known as the R group or the variable group of the side chain.There are 20 common amino acids present in natural proteins and each amino acid has the same backbone.
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examples of mixtures
Examples of mixtures are: Air, Saltwater, Soil, Salad, and Blood
Air: Air is a mixture of gases, primarily nitrogen (78%) and oxygen (21%), as well as small amounts of other gases like carbon dioxide, argon, and neon.
Saltwater: Saltwater is a mixture of water and salt. The salt dissolves in the water, but the two substances remain physically separate.
Soil: Soil is a mixture of organic matter, minerals, and water.
Salad: A salad is a mixture of various vegetables and sometimes fruits, nuts, or meats. The ingredients are physically combined, but not chemically bonded.
Blood: Blood is a mixture of various cells and plasma, which contains water, proteins, and other nutrients.
These are just a few examples of the many mixtures that exist in nature and are used in our daily lives.
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--The given question is incomplete, the complete question is
"What are the examples of mixtures"--
Methanol is an alcohol used as a fuel for some race cars. The standard molar enthalpy of formation of methanol CH₂OH() is -238.4 kJ/mol. For the balanced reaction equation
of methanol use:
CH₂OH(I) +2O₂ --> CO₂ + 2H₂O.
Methanol is a liquid, but all the other chemicals in this reaction are gases. What is the enthalpy change of this reaction in kJ/mol?
Answer:
-488.2 kJ/mol
Explanation:
To calculate the enthalpy change of the reaction, we can use the standard molar enthalpies of the formation of the products and reactants, which are given in the problem.
ΔH = Σ(nΔHf° products) - Σ(nΔHf° reactants)
where ΔH is the enthalpy change of the reaction, n is the stoichiometric coefficient, and ΔHf° is the standard molar enthalpy of formation.
Substituting the values given in the problem, we get:
ΔH = [(1 mol)(-393.5 kJ/mol) + (2 mol)(-241.8 kJ/mol)] - [(1 mol)(-238.4 kJ/mol) + (2 mol)(0 kJ/mol)]
= -726.6 kJ/mol + 238.4 kJ/mol
= -488.2 kJ/mol
The negative sign indicates that the reaction is exothermic, which means that it releases heat. Therefore, the enthalpy change of the reaction is -488.2 kJ/mol.
how many moles are in 34.5 of nabro3
To determine the number of moles in 34.5 grams of NaBrO3, we need to divide the given mass by the molar mass of NaBrO3. There are 0.229 moles of NaBrO3 in 34.5 grams of NaBrO3.
The molar mass of NaBrO3 can be calculated by summing the atomic masses of one sodium (Na) atom, one bromine (Br) atom, and three oxygen (O) atoms, each multiplied by their respective subscripts in the chemical formula.
The atomic masses of Na, Br, and O are:
Na: 22.99 g/mol
Br: 79.90 g/mol
O: 16.00 g/mol
The chemical formula of NaBrO3 indicates that it contains one Na atom, one Br atom, and three O atoms. Therefore, the molar mass of NaBrO3 is:
molar mass = (1 x Na atomic mass) + (1 x Br atomic mass) + (3 x O atomic mass)
molar mass = (1 x 22.99 g/mol) + (1 x 79.90 g/mol) + (3 x 16.00 g/mol)
molar mass = 150.89 g/mol
Now we can use the molar mass to convert the mass of NaBrO3 to moles:
moles = mass / molar mass
moles = 34.5 g / 150.89 g/mol
moles = 0.229 mol.
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Balance the chemical
equation
Mg(s)
0, (g)
MgO (s)
Identify type of reaction
The balanced chemical equation for the reaction between magnesium (Mg) and oxygen (O2) to form magnesium oxide (MgO) is:
2Mg (s) + O2 (g) → 2MgO (s)
In this equation, there are 2 atoms of magnesium and 2 molecules of oxygen on both sides of the equation, which means the equation is balanced.
This is an example of a synthesis reaction, where two or more substances combine to form a new compound. In this case, magnesium and oxygen react to form magnesium oxide. The reaction is exothermic, which means that it releases heat. This reaction is commonly used in the production of magnesium oxide, which is a useful material in various industrial applications, such as refractory linings in furnaces and kilns.
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Balance the chemical equation Mg (s) + O2 (g) → MgO (s) and identify type of reaction.
The balanced chemical equation for the formation of magnesium oxide (MgO) from the interaction of magnesium (Mg) and oxygen (O2) is 2Mg (s) + O2 (g) (s).
As there are two magnesium atoms and two oxygen molecules on either side of the equation in this case, the equation is balanced.
This is an illustration of a synthesis reaction, in which two or more chemicals come together to create a brand-new compound. As a result of this reaction, magnesium and oxygen produce magnesium oxide. Because the process is exothermic, heat is given off. Magnesium oxide is a result of this reaction that is frequently utilised in a variety of industrial applications, such as refractory linings for furnaces and kilns. Chemical symbols are used in chemical equations to represent what happens during a chemical reaction.
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Balance the chemical equation Mg (s) + O2 (g) → MgO (s) and identify type of reaction.
Which element has the electron configuration 1s22s22p63s23p64s^3ds? A) V B) Cr C) Mo D) Mn E) No element has this configuration
Answer:
A
Explanation:
is has the configuration because it does
Students are at a July 4th Fireworks Show. They see fireworks that are red, green, and yellow. What elements were probably present in these fireworks? Be sure to
tell which element goes with which color.
Answer:
Fireworks produce different colors by adding certain chemicals to the combustion reaction. Here are some of the elements that could be present in the fireworks to produce red, green, and yellow colors:
Red: Strontium (Sr) or Lithium (Li) salts are commonly used to produce red fireworks.Green: Barium (Ba) salts are used to create green fireworks.Yellow: Sodium (Na) compounds, such as sodium nitrate or sodium chloride, are often used to create yellow fireworks.So it is likely that some combination of these elements and their compounds were used to produce the red, green, and yellow fireworks.
the following method is used to make crystals of hydrated nickel sulphate.
an excess of nickel carbonate, 12.0g, was added to 40cm^3 of sulphuric acid, 2.0mol/dm^3. the unreacted nickel carbonate was filtered off and the filtrate evaporated to obtain crystals.
A ) number of moles of H2SO4 in 40cm^3 of 2.0mol/dm^3 acid = 0.08
i) number of moles of NiCO3 reacted =
ii) mass of nickel carbonate reacted =
iii) mass of unreacted nickel carbonate =
B ) the experiment produced 10.4g of hydrated nickel sulphate. calculate the percentage yeild.
i) the maximum number of moles of NiSO4.7H2O that could be formed =
ii) the percentage yeild =
(PLS SOLVE WITH STEPS)
Answer:
Explanation:
i) The balanced equation for the reaction between nickel carbonate (NiCO3) and sulfuric acid (H2SO4) is:
NiCO3 + H2SO4 → NiSO4 + CO2 + H2O
From the equation, we can see that one mole of NiCO3 reacts with one mole of H2SO4 to form one mole of NiSO4. Therefore, the number of moles of NiCO3 reacted is equal to the number of moles of H2SO4 in the reaction mixture, which is 0.08 moles.
ii) The molar mass of NiCO3 is 118.7 g/mol, so 0.08 moles of NiCO3 has a mass of:
0.08 moles x 118.7 g/mol = 9.5 g
Therefore, the mass of nickel carbonate reacted is 9.5 g.
iii) The excess of nickel carbonate added to the reaction mixture is:
12.0 g - 9.5 g = 2.5 g
Therefore, the mass of unreacted nickel carbonate is 2.5 g.
B)
i) The molar mass of NiSO4.7H2O is 262.85 g/mol, which includes the mass of seven water molecules. To calculate the maximum number of moles of NiSO4.7H2O that could be formed, we need to use the amount of nickel carbonate reacted (0.08 moles) as the limiting reagent.
From the balanced equation, we know that one mole of NiCO3 reacts to form one mole of NiSO4.7H2O. Therefore, the maximum number of moles of NiSO4.7H2O that could be formed is also 0.08 moles.
The mass of NiSO4.7H2O that could be formed is:
0.08 moles x 262.85 g/mol = 21.028 g
ii) The percentage yield is calculated using the following formula:
percentage yield = (actual yield / theoretical yield) x 100%
The actual yield is given as 10.4 g. The theoretical yield is the mass of NiSO4.7H2O that could be formed, which is 21.028 g.
percentage yield = (10.4 g / 21.028 g) x 100% = 49.4%
Therefore, the percentage yield is 49.4%.
Which pattern below most likely came from a gunshot and which one was produced from a blow on the head? How do you know?
Sample B was the Gunshot, it is a high velocity impact pattern anf forms a mist, while sample A was from a blow to the head, it is a medium velocity and more concerntrated blood.
What is Velocity?Velocity is a vector that measures the rate and direction of a moving object. It is defined as the rate of change of an object's position with respect to time. It is usually represented by the symbol v and is measured in meters per second (m/s). Velocity is used in physics to calculate the motion of an object in a given frame of reference.
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From the following items, which is closest in size to one mole of gas at stp?
At STP, a mole of pure gas is closest in size to a marble. As a tiny, solid material, a gram of gas at the STP is considerably smaller than a marble. D is the correct response.
At Standard Pressure and Temperature, 22.4 L of any gas will be required to hold 1 mole (STP). The Ideal Gas Law and a balanced chemical equation can be used to determine the amount or mass of gas consumed or created in a chemical process. In other words, the gas that has the greatest number of molecules of a certain gas at a given temperature will occupy the largest volume.
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Question: From the following items, which is closest in size to one mole of gas at STP?
A) A car
B) An elephant
C) A microwave
D) A marble
when potassium chloride is exposed to a flame, the light given off is the result of
When potassium chloride is exposed to a flame, the light given off is the result of atomic emission.
When a compound is heated, the energy is absorbed by the atoms or ions in the compound, causing them to become excited and jump to higher energy levels. As the atoms or ions return to their original energy levels, they release the excess energy in the form of light. This phenomenon is known as atomic emission.
In the case of potassium chloride, the energy absorbed by the atoms causes them to emit light in the visible spectrum, which produces a characteristic violet color. This process is commonly used in flame tests to identify the presence of specific elements or ions in a sample.
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A scientist mixes 0.02 g of a strong monoprotic base in 83ml of water and obtains a pH of 12 . He then realizes that he forgot to label the container and forgot what base he added. What is the most likely the identity of thisr base? LiOH NaOH RbOH KOH
Here we have to first determine the value of pOH from the given value of pH and have to obtain the concentration of hydroxide ion. The base will be LiOH. The correct option is A.
What is pH?The pH of a solution is defined as the negative logarithm of hydronium ion concentration in moles per litre. Mathematically it is given as:
pH = -log [H₃O⁺]
We have the relation, pH + pOH = 14
Then pOH = 14 - pH = 14 - 12 = 2
[OH⁻] = -log [pOH]
= -log (2)
= 10⁻² M
= 0.01 M
The molar mass of base is:
[OH⁻] = Mass of the base × 1000 / Molar mass × volume
0.01 = 0.02 × 1000 / 0.01 × 83
= 24 mol / gm
Thus LiOH has the molar mass of 24 mol / gm.
Thus the correct option is A.
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Your question is incomplete, but most probably your full question was:
A scientist mixes 0.02 g of a strong monoprotic base in 83ml of water and obtains a pH of 12 . He then realizes that he forgot to label the container and forgot what base he added. What is the most likely the identity of thisr base?
A. LiOH
B. NaOH
C. RbOH
D. KOH
True or False: colligative properties depend only on solute concentration; the identity of the solute is not important.
The colligative properties depend only on solute concentration; the identity of the solute is not important. It is true.
The colligative properties of a solution depend on the number of molecules or ions in the solute, not on the identity of solute. Osmotic pressure, boiling point elevation, freezing point depression, and vapor pressure depression are examples of ligand-like properties.
The total number of solute particles in a solution affects the colligative property of the solution. The chemical composition of the components has no effect on these properties. Therefore, the type of solvent has no effect on colligative power.
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when 5.49 moles of fluorine reacts with excess lead,how many moles of lead (IV) fluoride are formed 1pb + 2f2 = 1pbf4
2.745 moles of lead will react with 5.49 moles of fluorine to produce 2.745 moles of lead(IV) fluoride, according to the balanced equation.
What is Balanced Chemical Equation?
A balanced chemical equation is a written representation of a chemical reaction, with the number and type of atoms on both sides of the equation being equal. This means that the mass and charge are conserved in a chemical reaction.
A balanced chemical equation contains the reactants on the left side of the equation and the products on the right side, separated by an arrow indicating the direction of the reaction. The coefficients in front of the chemical formulas indicate the number of molecules or moles of each reactant or product involved in the reaction.
The balanced chemical equation for the reaction between lead and fluorine to form lead(IV) fluoride is:
1 Pb + 2 F₂ → 1 PbF₄
According to the equation, it takes 1 mole of lead (Pb) to react with 2 moles of fluorine (F₂) to produce 1 mole of lead(IV) fluoride (PbF₄).
If 5.49 moles of fluorine react, we need half as many moles of lead, since the mole ratio of lead to fluorine is 1:2. Therefore, the amount of lead required is:
5.49 moles F₂ × (1 mole Pb / 2 moles F₂) = 2.745 moles Pb
So 2.745 moles of lead will react with 5.49 moles of fluorine to produce 2.745 moles of lead(IV) fluoride, according to the balanced equation.
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What is Osmosis, Diffusion, Tyndall effect and Brownian Motion???
Osmosis: Osmosis is the movement of water molecules from a solution with a high concentration of water molecules to a solution with a lower concentration of water molecules, through a cell's partially permeable membrane.
Diffusion: The process of movement of a substance (solid, liquid, or gas) from the region of higher concentration to the region of lower concentration so as to spread uniformly is called diffusion.
Tyndall effect: The Tyndall effect is the phenomenon in which the particles in a colloid scatter the beams of light that are directed at them.
or the scattering of a beam of light by a medium containing small suspended particles.
Brownian motion: Brownian motion refers to the random movement displayed by small particles that are suspended in fluids.
What pathways would be necessary to carry you to the leaves of these trees .All of the above.1. apoplastic2. bulk flow3. symplastic4. transmembrane
The pathways that would be necessary to carry you to the leaves of these trees are apoplastic, bulk flow, symplastic and transmembrane. Hence, option 5 (all of the above) is correct.
Generally, the apoplast is defined as the space outside the plasma membrane consisting of intercellular spaces where the material diffuses freely.
Generally, mass flow or bulk flow is defined as the movement down a pressure gradient ( a pressure gradient in plants is observed due to variations in solute concentration) or the temperature gradient of substances in bulk or in masses.
Symplast is generally considered as the living part of the plant tissue without the presence of a cell wall and intercellular spaces in it.
Generally, the transmembrane protein (TP) is a type of integral membrane protein which spans the entirety of the cell membrane. Hence, option 5 is correct.
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nvm i don’t need helppp
Answer:
Ok It's all right.hahahhahah
What intermolecular forces are present in pure samples of both CH₃CH₂OH and CH₃CH₂NH₂?
A) Dispersion forces, dipole-dipole forces, and hydrogen bonding.
B) Dipole-dipole forces only.
C) Dipole-dipole forces and hydrogen bonding.
D) Dispersion forces and dipole-dipole forces
In pure samples of both CH3CH2OH and CH3CH2NH2, differences, dipole-dipole forces, or intermolecular hydrogen bonding forces all exist.
The correct answer is A
Why do you use the term "hydrogen bonding"?A hydrogen atom that is sandwiched between two other atoms and has a high affinity to electrons interacts with them to form a link that is stronger that
What guidelines apply to hydrogen bonds?For hydrogen bonds to form, two conditions must be met. Hydrogen Bonding Has to Meet Two Conditions: A electronegative atom is linked to hydrogen in the first molecule (N,O,F). On a tiny, very electronegative atom in the second molecule, there is a single pair of electrons.
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How many electrons does magnesium, Mg, need to lose to have the same number of electrons as one of the noble gases?
Answer:
Two electrons
What will change when a catalyst is added to a chemical reaction? (1) activation energy (2) heat of reaction (3) potential energy of the reactants (4) potential energy of the products
Only the difference in potential energy between reactants and products determines the heat of the reaction, and the catalyst has no impact on this potential energy. Yet, a catalyst reduces the activation energy to speed up the reaction process. The solution is, therefore, (1) activation energy.
The least amount of energy necessary to bring atoms or molecules into a state where they can undergo a chemical transformation or physical transport is known as the activation energy in chemistry.
The difference in energy content between atoms or molecules in an activated or transition-state configuration and the same atoms and molecules in their original configuration is known as the activation energy in transition-state theory.
In mathematical formulas for values like the reaction rate constant, k = Aexp(Ea/RT), and the diffusion coefficient, D = Doexp(Ea/RT), the activation energy is typically denoted by the sign Ea.
The bare minimum additional energy needed by a reactive molecule to transform into a product is known as activation energy. It is also known as the minimum energy required to energize or activate molecules or atoms in order for them to engage in a chemical reaction or transformation.
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How many atoms are in 36.4g of magnesium?
Divide the 36.4g mass by atomic mass units of magnesium, 24.31g/mole to get moles of Mg.
Multiply answer from step one by 6.022×10^23 (Avogadros Number) to get your final answer.
for an enzyme that follows michaelis-menton kinetics, km is equal to
For an enzyme that follows Michaelis-Menten kinetics, Km (the Michaelis constant) is equal to the substrate concentration at which the reaction rate is half of its maximum value.
Mathematically, Km is defined as the substrate concentration at which the initial reaction velocity is equal to one-half of the maximum reaction velocity (Vmax) of the enzyme.
In other words, Km is a measure of the affinity of the enzyme for its substrate. Enzymes with a lower Km have a higher affinity for their substrate, meaning that they can effectively bind and catalyze the reaction at lower substrate concentrations.
On the other hand, enzymes with a higher Km have a lower affinity for their substrate and require higher substrate concentrations to achieve the same reaction rate.
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At STP, which of these substances is most soluble in H2OH2O? Why?a) CCl4CCl4b) CO2CO2c) HClHCld) N2N2
HCl is the most soluble substance in water among the given options at STP.Among the given options, HCl (hydrogen chloride) is the most soluble in water at STP (standard temperature and pressure) due to its polar nature.
HCl is a polar molecule due to the unequal sharing of electrons between the hydrogen and chlorine atoms, resulting in a partial positive charge on hydrogen and a partial negative charge on chlorine. Water is also a polar molecule and thus, can interact with HCl through dipole-dipole interactions and hydrogen bonding, resulting in the dissolution of HCl in water.
On the other hand, CCl4 (carbon tetrachloride) is nonpolar and does not dissolve in water. CO2 (carbon dioxide) is also nonpolar and does not interact with water through hydrogen bonding or dipole-dipole interactions, resulting in low solubility. N2 (nitrogen) is also nonpolar and does not form any significant interactions with water, leading to low solubility in water.
Therefore, HCl is the most soluble substance in water among the given options at STP.
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What are three properties of covalent bonds and three properties of Ionic bonds?
Answer:
Three properties of covalent bonds are low melting and boiling points, softer than ionic bonds, don't dissolve well in the water.
Three properties of ionic bonds are high melting as well as boiling points, hard and brittle in nature and conduct electricity when dissolved in water.
In a _____two or more substances combine to form a new single substance.
a. Decomposition
b. Combination
c. Displacement
d. Double displacement
Now let's try one more example with biological relevance! here is a combustion reaction, which is also the process of photosynthesis. C6h12o6(s) 6 o2(g) -> 6 co2(g) 6 h2o(g) predict the sign of
The sign being referred to here is likely the ΔH sign, which indicates whether a reaction is exothermic (ΔH < 0) or endothermic (ΔH > 0).
In the case of the given combustion reaction, which is also the process of the photosynthesis in reverse, we can predict that it is an exothermic reaction because energy is released in the form of heat as well as light.
This can also be confirmed by the negative value of the enthalpy change (ΔH) associated with the reaction. Therefore, the sign of the ΔH for this reaction will be negative (ΔH < 0), indicating that it is exothermic.
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What is a major difference between inorganic and organic compounds? A.There are many more inorganic compounds than organic compounds B.Organic compounds contain carbon; few inorganic compounds do. C.Organic compounds are never ionic. D.Organic compounds tend t0 be more polar than inorganic compounds.
The significant difference between inorganic and organic compounds is that an organic compound contains carbon; few inorganic compounds do. The correct answer is option(B).
Organic compounds are molecules made up of a combination of carbon, hydrogen, and oxygen atoms. Organic compounds are said to be more volatile and also highly combustible. These compounds are often associated with living organisms and are found in foods and medicines. These are insoluble in water.
Examples of organic compounds are carbohydrates, fats (lipids), proteins, and nucleic acids, which are the basis for the molecules of life.
Inorganic compounds are made up of atoms from different elements, such as metals, sulfur, or nitrogen, and are not associated with living things. These compounds are not flammable and are non-volatile in nature. These are soluble in water and also non-soluble in some of the organic solutions.
Examples of inorganic compounds include table salt (sodium chloride), bleach (sodium hypochlorite), and ammonia (NH3). The compound which despite having carbon are inorganic are graphite, carbon dioxide, carbon monoxide, carbides (e.g, Silicon Carbide), carbonates ( Calcium Carbonate), and some cyanides.
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In the following acid-base reaction,
NH3 is the
H2PO4 (aq) + NH3(aq) → HPO42- (aq) + NH4+
Acid
Conjugate acid
Base
Answer:
Base
Explanation:
In an acid-base reaction, an acid donates a proton (H+) to a base, resulting in the formation of a conjugate base and a conjugate acid. In the reaction H2PO4- + NH3 → HPO42- + NH4+, H2PO4- donates a proton (H+) to NH3, making NH3 the base. The resulting NH4+ ion is the conjugate acid since it was formed by accepting the proton (H+) donated by H2PO4-. H2PO4- is acid, since it donated a proton to NH3, and HPO42- is the conjugate base, since it was formed when H2PO4- lost a proton.