What are the three things that affect an enzyme's ability to change the reaction rate of a chemical reaction

Answer: \(Mg(s)+Zn(NO_3)_2(aq)\rightarrow Mg(NO_3)_2(aq)+Zn(s)\)

Explanation:

Complete ionic equation : In complete ionic equation, all the substance that are strong electrolyte and present in an aqueous are represented in the form of ions.

Net ionic equation : In the net ionic equations, we do not not include the spectator ions in the equations.

Spectator ions are the ions present on reactant and product side which do not participate in a reactions. The same ions present on both the sides.

The equation given is:

\(Mg(s)+Zn^{2+}+2NO_3^-\rightarrow Mg^{2+}+2NO_3^-+Zn(s)\)

The complete molecular equation will be:

\(Mg(s)+Zn(NO_3)_2(aq)\rightarrow Mg(NO_3)_2(aq)+Zn(s)\)  

The complete ionic equation of\(\rm Mg(s) + Zn^{2+} + 2NO_3 \rightarrow Mg^{2+} + 2NO_3 + Zn(s)\) is\(\rm Mg(s) + Zn^{2+} \rightarrow Mg^{2+} + Zn(s)\). So, option A is right.

A complete ionic equation shows all of the ions that are present in a reaction, including the spectator ions. In this reaction, magnesium metal (Mg(s)) reacts with zinc(II) ions (\(\rm Zn^2+\)) to form magnesium(II) ions (\(\rm Mg2+\)) and zinc metal (Zn(s)).

The balanced molecular equation for this reaction is:

\(\rm Mg(s) + Zn(NO_3)_2(aq) \rightarrow Mg(NO_3)_2(aq) + Zn(s)\)

The complete ionic equation is:

\(\rm Mg(s) + Zn^{2+}(aq) \rightarrow Mg^{2+}(aq) + Zn(s)\)

The spectator ions are the nitrate ions (\(\rm NO_3^-\)), which are present on both sides of the equation. They do not participate in the reaction, so they are not included in the complete ionic equation.

The other choices are incorrect because they do not show all of the ions that are present in the reaction.

Therefore, the answer is A. \(\rm Mg(s) + Zn^{2+} \rightarrow Mg^{2+} + Zn(s)\).

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Allotrope 1 has the higher melting point because it lacks the covalent bonds between phosphorus atoms that are present in allotrope 2.

Allotropes of solid phosphorus are different forms of the element which differ in their molecular arrangement and structure. Allotrope 1 is a more stable form and has a higher melting point than that of allotrope 2 due to the absence of covalent bonds between the phosphorus atoms in allotrope 1.

The structure of allotrope 1 is an ordered arrangement in which the phosphorus atoms form a three-dimensional lattice. This lattice structure is held together by strong Van der Waals forces, which are electrostatic attractions between the atoms. This structure is more stable than that of allotrope 2 and has a higher melting point due to the increased strength of the interatomic forces.

In contrast, the structure of allotrope 2 is much less ordered, and the phosphorus atoms are held together by covalent bonds. This structure is not as stable as that of allotrope 1 and has a lower melting point. The covalent bonds between the phosphorus atoms are much weaker than the forces in allotrope 1, and consequently the melting point of allotrope 2 is lower.

This question is incomplete, so I am attaching the image that contains the information needed to answer it.

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Answer:(:

Explanation:

An example of the solar system is the eight planets including Earth that revolve around the sun. The sun together with the eight planets and all other celestial bodies that orbit the sun. A system of planets or other bodies orbiting a star. That portion of our galaxy which is subject to the gravity of the sun

Solvents used as eluents should have suitable polarity, low volatility, low viscosity, compatibility with the stationary phase, and low toxicity and environmental impact. These characteristics contribute to efficient and effective chromatographic separation and sample recovery.

Typical characteristics of solvents used as eluents include:

1. Polarity: Eluent solvents should have an appropriate polarity to interact with the compounds being separated. The polarity of the solvent determines the separation efficiency and resolution of the chromatographic process.

2. Volatility: Eluent solvents should have low boiling points to allow for easy removal after the separation process. This ensures that the solvent can be evaporated without affecting the analytes, making the recovery process more efficient.

3. Low viscosity: Eluent solvents should have low viscosity to facilitate a smooth flow through the chromatographic column. Low viscosity reduces backpressure in the system, leading to faster separation times and better performance.

4. Compatibility: Eluent solvents should be compatible with the stationary phase and other components of the chromatographic system. Compatibility ensures that there is no degradation or damage to the stationary phase, and thus maintains the efficiency of the chromatographic process.

5. Low toxicity and environmental impact: Solvents used as eluents should have low toxicity and minimal environmental impact. This is important for both the safety of the personnel handling the solvents and the environment, as well as compliance with environmental regulations.

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Answer:

.577 atm

Explanation:

P1 V1  = P2 V2

RE-ARRANGE TO     P2 = P1 V1 / V2

Sub in the given values

  P2 = 1.15 * .414 / .825 = .577 atm

Yes, the position of the hydroxyl group does have an effect on the wavelength of light absorbed by the dyes synthesized from a naphthol starting material.

This is because the position of the hydroxyl group determines the electronic properties of the molecule, which in turn affects the energy levels and transitions that occur when the molecule absorbs light. In general, molecules with hydroxyl groups attached to positions closer to the aromatic ring will absorb light at shorter wavelengths (higher energy), while those with hydroxyl groups attached to positions farther from the ring will absorb light at longer wavelengths (lower energy).

This phenomenon is known as the bathochromic or hypsochromic effect, depending on whether the shift is toward longer or shorter wavelengths, respectively.

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After 20 minutes, there would be 0.75 kilograms of salt in the tank.

1. Let's derive the differential equation that y(t) satisfies. The rate at which salt is added to the tank is given by the concentration of the solution (0.5 kg/L) multiplied by the rate at which the solution is added (6 L/min). The rate at which salt is drained from the tank is given by the concentration of salt in the tank (y(t) kg/L) multiplied by the rate at which the solution is drained (4 L/min). Therefore, the differential equation is:

dy/dt = (0.5 kg/L * 6 L/min) - (y(t) kg/L * 4 L/min)

Simplifying further, we have:

dy/dt = 3 - 4y(t)

2. To find the amount of salt in the tank after 20 minutes, we can solve the differential equation. One approach is to find the particular solution by assuming y(t) takes the form of a constant, y. Substituting this into the differential equation, we have:

dy/dt = 3 - 4y

Setting dy/dt to zero (since y is constant), we can solve for y:

0 = 3 - 4y

4y = 3

y = 3/4

y = 0.75 kg

Therefore, after 20 minutes, there would be 0.75 kilograms of salt in the tank.

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Answer:

One word for this is, raconteur - it means a person skilled in telling anecdotes. anecdotist. narrator,  or storyteller

Explanation:

Answer:

You can look the answer at the photo

thankss

Answer:

Land plants are also known as Embryophytes. Embryophytes are complex multicellular eukaryotes with specialized reproductive organs. The name derives from their innovative characteristic of nurturing the young embryo sporophyte during the early stages of its multicellular development within the tissues of the parent gametophyte.

Explanation:

Answer:

there used for mountains , wait I'm just trynna get points ya feel me

Explanation:

Answer:

Magnesium burns in steam to produce white magnesium oxide and hydrogen gas with a bright flame

Explanation:

Answer:

In a physical change the appearance or form of the matter changes but the kind of matter in the substance does not. However in a chemical change, the kind of matter changes and at least one new substance with new properties is formed. The distinction between physical and chemical change is not clear cut.

Explanation:

Answer:

Funnel and filter paper

Explanation:

the balance of it just balances things out,  the beaker and flask will only help you with the measuring , and the watch glass is to see different things clearer.

Answer: Funnel, filter paper

Explanation: The balance of it just balances things out. The beaker and flask will help you with the measuring. The watch glass is to see different things objects clearer.

Hope this helps : )

The given representation of one unit of C₆H₁₂O₆ in water is incomplete as it does not include the water molecules that are essential for the dissolution process.

In the given representation, only the C₆H₁₂O₆ molecules are shown, while the water molecules are intentionally not depicted. However, when C₆H₁₂O₆  dissolves in water, it forms a solution where C₆H₁₂O₆ molecules are surrounded by water molecules, resulting in a hydrated state.

Therefore, the representation is incomplete and inaccurate since it neglects the presence of water molecules, which play a crucial role in the dissolution and formation of a hydrated C₆H₁₂O₆ complex in water.

The question should be:

A representation of one unit of C₆H₁₂O₆ in water is shown below. (The water 12 molecules are intentionally not shown.)

(a) What is wrong with this representation?

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Answer:

- Water from beaker will move to the tube

Explanation:

Total percentage of water in the beaker;

\( = { \tt{100\% - 5\%}} \\ = { \tt{95\%}}\)

Total percentage of water in dialysis tube;

\({ \tt{ = 100\% - 15\%}} \\ = { \tt{85\%}}\)

So, there is much water concentration in the beaker than the dialysis tubing, this causes a determined percentage of water to diffuse to the tubing, and determined percentage of salt to move from tubing to the beaker.

Percentage of water moving to tubing;

\({ \tt{ = 95\% - 85\%}} \\ = { \tt{10\%}}\)

Percentage of salt moving from tubing to beaker

\({ \tt{ = 15\% - 5\%}} \\ { \tt{ = 10\%}}\)

The false statement is applied pressure only refers to atmospheric pressure and the correct option is option 1.

It is the ratio of the force applied to the surface area over which the force is applied. Pressure can be defined as the force applied perpendicular to the surface of an object per unit area over which that force is distributed. Atmospheric pressure is the pressure exerted by the atmosphere on the earth.

Thus applied pressure not only represents atmospheric pressure.

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This question involves the concepts of time period and tangential speed.

The tangential speed of the object is "5.1 x 10⁴ m/s".

The following formula gives the time period of the object:

\(T=\frac{2\pi}{\omega}\\\\\)

\(\omega = \frac{2\pi}{T}\)

where,

Therefore,

\(\omega=\frac{2\pi}{2.2\ x\ 10^4\ s}\\\\\omega=2.86\ x\ 10^{-4}\ rad/s\)

Now, the tangential speed can be given by the following formula:

\(v=r\omega\)

where,

Therefore,

\(v=(1.8\ x\ 10^8\ m)(2.86\ x\ 10^{-4}\ rad/s)\)

v = 5.1 x 10⁴ m/s

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Answer: 5.1 x 10⁴ m/s

Explanation:

edge 2023

Answer:Atoms acquire the stable electron structure of a noble gas by losing electrons. An atom of an element in Group 1A has seven valence electrons. Among Group 1A and 2A elements, the group number is equal to the number of valence electrons in an atom of that element.

Explanation: Hope this help have an wonderful day and stay safe! :D

The mass of \(5.83 * 10^{17\) molecules of liquid propane is \(4.27 * 10^-5 g.\)

The mass of \(5.83 * 10^{17\)molecules of liquid propane (LP gas) can be calculated as follows.

The given quantity is the number of molecules. We need to calculate the mass of this given number of molecules. The molar mass of LP gas (\(C_3H_8\)) is 44.11 g/mol.

To calculate the mass of 1 molecule of LP gas (\(C_3H_8\)), we can use the molar mass of LP gas as follows:molar mass of LP gas (\(C_3H_8\)) = 44.11 g/molNumber of molecules present in 1 mol of\(C_3H_8\) = Avogadro's number = 6.022 × 10²³

Number of molecules present in 44.11 g of \(C_3H_8\) = 6.022 × 10²³So, the mass of 1 molecule of\(C_3H_8\) can be calculated as follows:

44.11 g of \(C_3H_8\) = 6.022 × 10²³ molecules1 g of\(C_3H_8\) = (6.022 × 10²³)/44.11 molecules

Mass of 1 molecule of \(C_3H_8\) = (1/6.022 × 10²³) × 44.11 g = 7.33 × \(10^{-23\)g

Now, the mass of 5.83 × 10^17 molecules of C3H8 can be calculated as follows:

mass of \(5.83 * 10^{17\) molecules = \(5.83 * 10^{17\)) × (7.33 × \(10^{-23\)) g= 4.27 ×\(10^{-5\) g

Therefore, the mass of\(5.83 * 10^{17\)molecules of liquid propane is \(4.27 * 10^-5 g.\)

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The [Fe2+] at equilibrium is 1.4x10^-34 M.

To solve this problem, we need to use the equilibrium constant expression for the formation of Fe(CN)64-:

Fe2+ + 4CN- ⇌ Fe(CN)64-

The equilibrium constant for this reaction is given as Kf = [Fe(CN)64-]/([Fe2+][CN-]4), where [ ] denotes the concentration in mol/L.

We are given the initial concentration of Fe2+ as 0.025 M in 1.0 L, which means we have 0.025 mol of Fe2+. When 0.45 mol of NaCN is added, the total amount of CN- becomes 0.45 mol + 4 × 0.025 mol = 0.55 mol. Since Fe2+ is the limiting reagent, it will all react to form Fe(CN)64-. At equilibrium, the concentration of Fe2+ will be zero, and the concentration of Fe(CN)64- will be 0.025 mol/L × 0.55 mol = 0.01375 mol/L.

Substituting these values into the equilibrium constant expression, we get:

2.5x10^35 = 0.01375/[Fe2+] × (0.55)^4

Solving for [Fe2+], we get:

[Fe2+] = 1.4x10^-34 M

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Answer:

Java is a high-level, class-based, object-oriented programming language that is designed to have as few implementation dependencies as possible.

Explanation:

what is the context of that questing ?

just by itself 3 main answers :

an island

coffee from that island

a programming language

true

Explanation:

Atoms cannot be subdivided, created, or destroyed. Atoms of different elements can combine in simple whole number ratios to form chemical compounds.

Answer:

true

hdozhsienzidbxirbfifndirhfirbr

a)The solubility of AgIO3 is 9.9 x 10^-9 M.

Ksp for AgIO3 is 3.0 x 10^-8If we assume that the amount of IO3- consumed to produce AgIO3 is negligible compared to 0.27 M, then the IO3- concentration remains almost the same (≈0.27 M) after equilibrium is achieved.

The Ksp expression for AgIO3 is:AgIO3(s) ⇌ Ag+(aq) + IO3-(aq)Ksp = [Ag+][IO3-]At equilibrium, the solubility of AgIO3 in water is s. The equilibrium concentrations of Ag+ and IO3- are both s.

The Ksp expression for AgIO3 is:s = [Ag+][IO3-]Ksp = s2If the initial IO3- concentration is 0.27 M and the solubility of AgIO3 is s, then the equilibrium IO3- concentration is 0.27 - s.

Thus,Ksp = s2= (9.9 x 10^-9)^1/2= 9.9 x 10^-9 MC) AgIO3 is more soluble than La(IO3)3.

Summary:The solubility of AgIO3 in a 0.270 M solution of NaIO3 is 9.9 x 10^-9 M. The solubility of La(IO3)3 in a 0.270 M solution of NaIO3 is 2.3 x 10^-17 M. AgIO3 is more soluble than La(IO3)3.

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Answer:

2.5 moles HCl = 2.5moles x 36g/mole HCl = 90 grams HCl.

Explanation:

From equation ratios the reaction ratio is 1 mole Mg to 2 moles HCl. That is, given 1.25 moles Mg, moles HCl consumed will be 2(1.25)moles, or 2.5 moles HCl = 2.5moles x 36g/mole HCl = 90 grams HCl.

The production of aluminum by the electrolytic reduction of alumina involves the oxidation of graphite at the anode, which produces carbon dioxide (CO2) gas. In order to calculate the mass of graphite that must be consumed to produce 1000 kg of aluminum, we need to use the stoichiometry of the reaction.

The balanced chemical equation for the reaction is:

2 Al2O3 + 3 C → 4 Al + 3 CO2

This equation tells us that for every 3 moles of graphite (C) consumed, we can produce 4 moles of aluminum (Al). We can use this information to calculate the amount of graphite required to produce a given amount of aluminum.To start, we need to determine the number of moles of aluminum in 1000 kg of the metal. The molar mass of aluminum is 26.98 g/mol, so:

1000 kg Al × (1000 g/kg) ÷ (26.98 g/mol) = 37,051.5 mol A

Next, we can use the stoichiometry of the reaction to determine the number of moles of graphite required to produce this amount of aluminum. For every 4 moles of Al produced, we need 3 moles of C:

37,051.5 mol Al × (3 mol C/4 mol Al) = 27,788.6 mol C

Finally, we can convert the number of moles of graphite to mass, using the molar mass of carbon (12.01 g/mol):

27,788.6 mol C × 12.01 g/mol = 333,391 g or 333.4 kg

Therefore, approximately 333.4 kg of graphite must be consumed in order to produce 1000 kg of aluminum by the electrolytic reduction of alumina.

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Answer: If a pinch of mercury is consumed you will die from it so using a mercury thermometer is very unsafe if its breaks and a child consumes that mercury.

Explanation:

Don't use one

If the glass breaks and the mercury is not properly cleaned up, the little silvery ball within a mercury thermometer might be hazardous. As the mercury evaporates, it may pollute the air around and turn dangerous to both people and animals.

Children that have been exposed to mercury have lower IQs, hearing impairments, and worse coordination.

Long-term exposure worsens and exacerbates symptoms, which may lead to personality changes or even coma.

Mercury thermometers can be replaced by a number of things:

These non-mercury fever thermometers are significantly safer and equally accurate as mercury thermometers.

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The reaction between 3-phenylpropyne and D2 (deuterium) in the presence of Pd/C (palladium on carbon) is a catalytic hydrogenation reaction. In this reaction, the triple bond of 3-phenylpropyne is reduced to a single bond, resulting in the addition of two deuterium atoms.

The organic product of this reaction is 3-phenylpropane-d2. The triple bond between the carbon atoms in 3-phenylpropyne is converted into a single bond, and two deuterium atoms (D) replace two hydrogen atoms (H). The phenyl group (C6H5) remains intact. The deuterium atoms are isotopes of hydrogen, containing a neutron in their nuclei. Thus, the resulting product, 3-phenylpropane-d2, contains deuterium atoms instead of hydrogen atoms, while the overall structure of the molecule remains the same.

Overall, the reaction between 3-phenylpropyne and D2 in the presence of Pd/C leads to the formation of 3-phenylpropane-d2, where the triple bond is converted to a single bond and two deuterium atoms replace two hydrogen atoms.

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Here's the breakdown of whether they describe bacterial artificial chromosomes (BACs), yeast artificial chromosomes (YACs), or both:

Used for cloning of long (>10 kbp) DNA fragments - Both BACs and YACs

Contains an origin of replication - Both BACs and YACs

Transformed as a circular chromosome - BACs

Contains a telomere sequence - YACs

Transformed as a linear chromosome - YACs

Contains par genes originating from the F' plasmid - BACs

Contains a centromere sequence - YACs

In summary, both BACs and YACs are used for cloning long DNA fragments and contain an origin of replication. BACs are transformed as circular chromosomes and have par genes from the F' plasmid. YACs have telomere and centromere sequences and are transformed as linear chromosomes.

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the speed of arrow is 83m/per second

that means

83metres = 1 second

●The arrow would cover the distance of 83 metres in 1 second

may this helps you

bye