dialysis is used to purify blood, sea water, and polluted drinking water. true or false?

Answers

Answer 1
True!


Explanation:
Dialysis is the separation of smaller molecules from larger molecules or of dissolved substances from colloidal particles in a solution by selective diffusion through a semipermeable membrane. The most common usage is that of blood, or kidney dialysis, but the process can be used for sea or drinking water as well.

Related Questions

How do water molecules dissolve a salt?
O
A. The water molecules move around the salt crystals.
O
B. The water molecules separate the crystals into molecules.
O
C. The water molecules move around the salt ions.
D. The salt crystals squeeze in between water molecules.

Answers

The correct answer is B) The water molecules separate the crystals into molecules.

What's a molecule?

The smallest particle of a substance that has all of the physical and chemical properties of that substance. Molecules are made up of one or greater atoms.

What are the kinds of molecules?

Diatomic Molecules -- A diatomic atom consists of the most effective atoms, of equal or distinctive chemical factors. Heteronuclear Diatomic Molecules -- A heteronuclear diatomic molecule consists of atoms of equal detail mixed. OXYGEN MOLECULE.CARBON MONOXIDE MOLECULE (CO)

How does water dissolve salt?

Water dissolves in salt because the terrible part of a water molecule, the oxygen part is interested in the wonderful sodium ion of the salt. also, the effective part of the water molecule, the hydrogen component is drawn to the terrible chloride ion of the salt. Water molecules pull the sodium and chloride ions aside, breaking the ionic bond that held them together. After the salt compounds are pulled apart, the sodium and chloride atoms are surrounded via water molecules. once this occurs, the salt is dissolved, ensuing in a homogeneous solution.

Learn more about molecules here: https://brainly.com/question/26044300

#SPJ2

Answer:

it’s C

Explanation:

which diagram best illustrates the ion-molecule attractions that occur wen the ions NaCl(s) are added to water

Answers

The correct image is option A

What happens when we add NaCl to water?

The process of dissolving table salt (NaCl) in water is known as dissolution. The salt separates into sodium (Na⁺) and chloride (Cl⁻) ions, which are its component ions. These ions, which are charged positively or negatively, interact with the molecules of water to surround and disseminate themselves.

A homogenous mixture known as saltwater is created as a result. The ionic connections holding the salt crystal lattice together are broken during the physical process of NaCl dissolving in water, distributing the ions uniformly throughout the solution.

The diagram  that best ilustrates the ion-molecule attractions that occur when the ions of NaCl(s) are added to water is option B)

When sodium chloride (NaCl) is added to water, it dissolves and dissociates into Na+ and Cl- ions. These ions are then surrounded by water molecules due to ion-dipole attractions. Water molecules are polar, with a partially negative oxygen atom and partially positive hydrogen atoms.

The positive sodium ions are attracted to the negative oxygen atoms in the water molecules, and the negative chloride ions are attracted to the positive hydrogen atoms. This results in the formation of a hydrated lattice, where the ions are surrounded by water molecules.

How do you do a stoichiometric problem

Answers

Write the balanced chemical equation.

Convert the units of the given substance (A) to moles.

Use the mole ratio to calculate the moles of wanted substance (B).

Convert moles of the wanted substance to the desired units.

Low air pressure can cause
Question 5 options:


clouds and precipitation to form


the temperature to drop


a sunny day


fog

Answers

Answer: clouds and precipitation to form

Explanation: In a low pressure system warm air rises into the atmosphere and cools down and forms cloud. In low air pressure the humidity is high since there is enough space for water vapor to occupy causing precipitation.

19. Which of the following best describes the role of the spark from the spark plug in an automobile engine?
(A) The spark decreases the energy of activation for the slow step.
(B) The spark increases the concentration of the volatile reactant.
(C) The spark supplies some of the energy of activation for the combustion reaction.
(D) The spark provides a more favorable activated complex for the combustion reaction.
(E) The spark provides the heat of vaporization for the volatile hydrocarbon.

Answers

The role of a spark plug is to supply some of the energy of activation for the combustion reaction.

Explanation:

A Spark plug is a tiny bolt of lightning in which a spark of electricity is emitted across a gap creating the ignition of the combustion chamber thereby starting the engine. By putting an engine piston in motion we can power up which produces a smooth burn of the compressed air-fuel mixture.An electrical device that fits into the cylinder head and ignites compressed aerosol gasoline by an electric spark. They have an insulated electrode connected to a coil that ignites thereby producing sparks.The spark plug works as a heat exchanger. They tend to pull unwanted thermal energy from the combustion chamber and heat is transferred to the engine's cooling system. Thus they supply some of the energy for the activation of engines.

The correct answer is (C) The spark supplies some of the energy of activation for the combustion reaction, is  best describes the role of the spark from the spark plug in an automobile engine.

In an automobile engine, the spark from the spark plug plays a crucial role in initiating the combustion process. The combustion reaction involves the rapid oxidation of a fuel, typically a volatile hydrocarbon, which releases a significant amount of energy. However, this reaction requires an initial input of energy to overcome the energy barrier known as the activation energy.

The spark from the spark plug provides this necessary energy of activation. When the spark plug ignites, it creates a small, high-energy spark that is hot enough to initiate the combustion of the air-fuel mixture in the engine's cylinder. This spark raises the temperature of a small portion of the fuel-air mixture to a point where the molecules have enough kinetic energy to react with each other, thus starting the combustion reaction.

Once the reaction starts, it releases enough energy to sustain itself and continue the combustion process without additional input from the spark plug. The energy released by the combustion reaction is what powers the engine by pushing the pistons down, which in turn rotates the crankshaft and ultimately drives the vehicle's wheels.

To summarize, the spark from the spark plug is essential because it:

- Provides the energy of activation needed to initiate the combustion reaction.

- Does not decrease the energy of activation (option A).

- Does not significantly increase the concentration of the volatile reactant (option B).

- Does not alter the activated complex (option D), as the activated complex is a theoretical state in the reaction pathway, not something that can be provided or altered by external means.

- Does not provide the heat of vaporization (option E) for the hydrocarbon, as the spark's role is to initiate combustion, not to vaporize the fuel, although vaporization of the fuel is a necessary step before combustion.

Therefore, the spark's role is to supply some of the energy of activation for the combustion reaction, making option (C) the correct description.

2.50g of a certain Compound X, known to be made of carbon, hydrogen and perhaps oxygen, and to have a molecular molar mass of 128. g/mol, is burned completely in excess oxygen, and the mass of the products carefully measured:

product mass
carbon dioxide 8.60g
water 1.41g
Use this information to find the molecular formula of X.

Answers

Final answer:

The molecular formula of the compound is C4H8O4.

Explanation:

The molecular formula of Compound X can be determined by calculating the empirical formula and then obtaining the molecular formula based on the molar mass. First, we calculate the empirical formula using the mass percentages of carbon, hydrogen, and oxygen in the compound. From the given information, the empirical formula is CH2O. To obtain the molecular formula, we need to calculate the empirical formula mass by summing the atomic masses of its elements. The empirical formula mass of CH2O is 30.03 g/mol. To find the molecular formula, we divide the molecular molar mass (128 g/mol) by the empirical formula mass (30.03 g/mol). The result is approximately 4.27, which indicates that the molecular formula of Compound X is 4.27 times the empirical formula. Multiplying the subscripts of the empirical formula (CH2O) by 4.27, we get the molecular formula of Compound X as C4H8O4.

Learn more about Molecular formula here:

https://brainly.com/question/36480214

#SPJ3

Which of the following could a magnet float over?
A. A network solid
B. A molecular solid
C. A semiconductor
D. A superconductor

Answers

D: A superconductor

As the ions present on a magnet and a superconductor are oppositely charged, it would help a superconductor to float over a magnet.

What are ions?

An ion is defined as an atom or a molecule which has a net electrical charge. There are 2 types of ions :1) cation 2) anion . The cation is the positively charged ion and anion is the negatively charged ion . As they are oppositely charged they attract each resulting in the formation of ionic bond.

Ions consisting of single atom are mono-atomic ions while which consists of two or more ions are called as poly-atomic ions . They are created by chemical interactions . They are very reactive in their gaseous state and rapidly react with oppositely charged ions resulting in neutral molecules.Ions of opposite charges attract in an ionic bond.

Learn more about ions,here:

https://brainly.com/question/29183072

#SPJ5

Consider the following intermediate chemical equations.


What is the enthalpy of the overall chemical reaction?
-205.7 kJ
-113.4 kJ
-14.3 kJ
78.0 kJ

Answers

Answer:

The first choice, [tex]-205.7\; \rm kJ[/tex].

Explanation:

Let the three reactions, where the enthalpy change were known, be called (1), (2), and (3).

The goal is to find the enthalpy change of the fourth equation. Assume that this equation can be written as [tex]x \times (1) + y \times (2) + z \times (3)[/tex] for some [tex]x[/tex], [tex]y[/tex], and [tex]z[/tex] (might not be whole numbers or take positive values.) Then, by Hess's Law, the enthalpy change of that reaction would be [tex]x \cdot \Delta H_1 + y \cdot \Delta H_2 + z \cdot \Delta H_3[/tex].

To find these [tex]x[/tex], [tex]y[/tex], and [tex]z[/tex], consider: what combination of reaction (1), (2), and (3) would give the fourth reaction?

Imagine that the coefficients are positive for all the reactants, and negative for all the products.

For example: in (1), [tex]\rm H_2\; (g)[/tex] has a coefficient of [tex]2[/tex]. However, since it is on the the product side of (1), its value should be [tex]-2[/tex]. Also, in (3)

Since there is no [tex]\rm H_2\; (g)[/tex] in the desired equation, the value of [tex]x[/tex], [tex]y[/tex], and [tex]z[/tex] should ensure that [tex]-2x + z = 0[/tex].

Another example: [tex]\rm CH_4\; (g)[/tex] is on the reactant side of the first reaction. Its coefficient in the equation is [tex]1[/tex], so that corresponds to [tex]+1[/tex]. Since [tex]\rm CH_4[/tex] is neither in (2) nor in (3), the value of

In the desired equation, [tex]\rm CH_4\; (g)[/tex] is on the reactant side with a coefficient of [tex]1[/tex]. As a result, the value of [tex]x[/tex], [tex]y[/tex], and [tex]z[/tex] should ensure that [tex]x = 1[/tex].

One such equation can be found for each species in the reactions.

[tex]\displaystyle \begin{cases}x = 1 & \left(\text{For $\mathrm{CH_4\; (g)}$}\right) \\ -x - y= 0 & \left(\text{For $\mathrm{C\; (s)}$}\right) \\ -2\, x + z = 0 & \left(\text{For $\mathrm{H_2\; (g)}$}\right) \\ y = -1 & \left(\text{For $\mathrm{CCl_4\; (g)}$}\right) \\ -2\, y + z= 4 & \left(\text{For $\mathrm{Cl_2\; (g)}$}\right) \\ -2\, z = -4 & \left(\text{For $\mathrm{HCl\; (g)}$}\right)\end{cases}[/tex].

Solve this system of equations for [tex]x[/tex], [tex]y[/tex], and [tex]z[/tex] (this approach works only if at least one solution exists.) In this case,

[tex]\displaystyle \begin{cases}x = 1 \\ y = -1 \\ z = 2\end{cases}[/tex].

Calculate the enthalpy change of the desired reaction:

[tex]\begin{aligned}\Delta H &= x\times \Delta H_1 + y \times \Delta H_2 + z \times \Delta H_3 \\ &= 1 \times 74.6 + (-1) \times 95.7 + 2 \times (-92.3) \\ &= -205.7\; \rm kJ\end{aligned}[/tex].

How many electrons can copper lend?

Answers

Final answer:

Copper can lend one or two electrons per atom in chemical reactions, commonly two for the reduction of Cu²⁺ ions, and has free conduction electrons that make it an excellent electrical conductor.

Explanation:

Copper can lend different numbers of electrons depending on the chemical process involved. For instance, in a redox reaction where copper ions are being reduced, two electrons are typically required to reduce a single Cu²⁺ ion to metallic copper (Cu). Since the atomic structure of copper allows for an outermost electron to be loosely bound, copper can conduct electricity well due to the movement of these conduction electrons.

In a typical copper wire or sheet, there is one free electron per atom that can be transferred. However, the number of electrons a copper atom can lend is not unlimited; it is restricted by the reaction conditions and the valence of the copper involved in the reaction.

Calculate the heat needed to change 3.00 * 10^2 grams of water at 25 degrees celsius to steam at 100 degrees celsius

Answers

Answer:

9.4×10⁴J

Explanation:

The specific heat capacity (SHC) of water, which is the amount of energy (J) that it takes to warm 1mL (1mL = 1g) of water by 1°C is 4.184 J/°C.

Q = mcΔT relates energy to mass, SHC, and change in temperature.

The mass of water is 300g, and will not change because no water will evaporate until it reaches 100°C.

The change in temperature is 75°C:

100°C - 25°C = 75°C

(Desired temp. - initial temp. = change in temp.)

Subbing these values into Q=mcΔT:

Q = 300g × 4.184J/g×°C × 75°C

Q = 94140J

Scientific notation tells us that we have two significant figures, so:

Q = 9.4 × 10⁴J

PLEASE ANSWER

In electromagnetic waves High Frequency = _______________.

A. high energy
B. low energy
C. long wavelengths
D. high amplitude

Answers

Answer:

option A

Explanation:

Electromagnetic waves are those waves which is produced by oscillation or vibration between the magnetic field and electric field. For example radio waves, visible radiation, ultraviolet, infrared, microwaves etc

In electromagnetic waves higher the frequency means higher the energies and higher the energy means lower the wavelength.

Like gamma rays have highest frequencies with highest energy and shortest wavelength.

What are the four main reservoirs of carbon

Answers

the atmosphere,the terrestrial biosphere, the oceans and the sediments

How many liters are in a .00813M solution that contains 1.55 g of KBr?

Answers

Answer:

                      1.602 L (or) 1602 mL

Explanation:

             Molarity is the amount of solute dissolved per unit volume of solution. It is expressed as,

                         Molarity  =  Moles / Volume of Solution    ----- (1)

Rearranging above equation for volume,

                         Volume of solution  =  Moles / Molarity    -------(2)

Data Given;

                  Molarity  =  0.00813 mol.L⁻¹

                  Mass  =  1.55 g

First calculate Moles for given mass as,

                   Moles  =  Mass / M.mass

                   Moles  =  1.55 g / 119.002 g.mol⁻¹

                   Moles  =  0.0130 mol

Now, putting value of Moles and Molarity in eq. 2,

                         Volume of solution  =  0.0130 mol / 0.00813 mol.L⁻¹

                         Volume of solution  = 1.60 L

or,

                         Volume of solution  =  1602 mL

Which equation has both a liquid and a gas as products? 2 upper H g upper O (s) right arrow 2 upper H g (l) plus upper O subscript 2 (g). 2 upper M g (s) plus upper O subscript 2 (g) right arrow 2 upper M g upper O (s). 1 UJpper K upper C l upper O subscript 3 (s) right arrow 2 upper K upper C l (s) plus 3 upper O subscript 2 (g). Upper M g (s) plus 2 upper H upper C l (a q) right arrow upper H subscript 2 (g) plus upper M g upper C l subscript 2 (a q).

Answers

Answer:

A

Explanation:

Why is liquid silver less dense than solid silver

Answers

Answer:

The same mass divided by a larger volume results in a smaller value for density. Therefore, liquid silver is less dense than solid silver. Temperature and solid density The density of solids usually decreases slightly as temperature increases because solids expand when heated.

Explanation:

Hope this helps

-A Helping Friend (mark brainliest pls)

Liquid silver is less dense than solid silver due to the density between these two species.

Density:

It is defined as the ratio of mass over volume. The same mass divided by a larger volume results in a smaller value for density. Therefore, liquid silver is less dense than solid silver. The density of solids usually decreases slightly as temperature increases because solids expand when heated. The vibrations of the molecules increases, and it is easier for the molecules to slide past each other.

Find more information about Density here:

brainly.com/question/6838128

a 4.0 L sample of gas at 1.4 atm is heated from 298ck to 310 k. the pressure of the gas increases to 2.1 atm. what is the new volume of the gas ?

Answers

Answer:

3.5

Explanation:

The gas in the reaction is considered as the ideal gas. The new volume of the gas with heating was 2.77 L.

What is an ideal gas law?

The ideal gas law can be given as:

[tex]PV=nRT[/tex]

For a gas with the change in pressure and temperature, the change in volume is given as:

[tex]\dfrac{P_1V_1}{T_1}=\dfrac{P_2V_2}{T_2}[/tex]

Substituting the initial pressure ([tex]P_1[/tex]), initial volume ([tex]V_1[/tex]), initial temperature ([tex]T_1[/tex]), final pressure ([tex]P_1[/tex]) final temperature ([tex]T_2[/tex]), and the final volume ([tex]V_2[/tex]) can be given as;

[tex]\rm \dfrac{1.4\;atm\;\times\;4\;L}{298\;K} = \dfrac{2.1\;atm\;\times\;\textit V_2}{310\;K}\\\\ \textit V_2=2.77\;L[/tex]

The new volume of the gas is 2.77 L.

Learn more about ideal gas, here:
https://brainly.com/question/8711877

The law of conservation of mass tells us, in part, that matter is neither created nor destroyed.
How can the law of conservation of mass for a chemical reaction be expressed?

Answers

Law of conservation of mass for a chemical reaction can be expressed  by all of the above.

What is law of conservation of mass?

According to law of conservation of mass, it is evident that mass is neither created nor destroyed rather it is restored at the end of a chemical reaction .

Law of conservation of mass and energy are related as mass and energy are directly proportional which is indicated by the equation E=mc².Concept of conservation of mass is widely used in field of chemistry, fluid dynamics.

Law needs to be modified in accordance with laws of quantum mechanics under the principle of mass and energy equivalence.This law was proposed by Antoine Lavoisier in the year 1789.For a reaction to obey law of conservation of mass it must be balanced.

Learn more about law of conservation of mass,here:

https://brainly.com/question/28711001

#SPJ2

Your question is incomplete, but most probably your full question was,the law of conservation of mass tells us, in part, that matter is neither created nor destroyed.How can the law of conservation of mass for a chemical reaction be expressed? A. By using using coefficients coefficients in in a chemical equation B. By  writing a a balanced balanced chemical  equation C. By counting  the  atoms  present on each  side of the equation D. All of of the the above

The law of conservation of mass states that in a chemical reaction, matter is neither created nor destroyed, meaning the total mass of the reactants equals the total mass of the products. Introduced by Antoine Lavoisier in 1789, this principle highlights that matter can change forms but the total mass is conserved.

The law of conservation of mass states that matter is neither created nor destroyed during a chemical reaction. This means that the total mass of the reactants (substances that undergo the changes) must be equal to the total mass of the products (substances formed as a result of the reaction). For example, when burning charcoal in oxygen, the mass of the charcoal and oxygen before the reaction is the same as the mass of the carbon dioxide, water vapor, and ash produced. Antoine Lavoisier, a French chemist, introduced this concept in 1789, emphasizing that although matter can change forms (e.g., from a solid to a gas), the total mass remains constant before and after the reaction. The rearrangement of atoms during reactions ensures the conservation of mass.

How many grams of zinc would be required to produce 9.65g of zinc hydroxide

Answers

The question is incomplete, here is the complete question:

How many grams of zinc would be required to produce 9.65g of zinc hydroxide

Zn+2MnO₂+H₂O→Zn(OH)₂+Mn₂O₃

Answer: The mass of zinc required is 6.35 grams

Explanation:

To calculate the number of moles, we use the equation:

[tex]\text{Number of moles}=\frac{\text{Given mass}}{\text{Molar mass}}[/tex]     .....(1)

Given mass of zinc hydroxide = 9.65 g

Molar mass of zinc hydroxide = 99.4 g/mol

Putting values in equation 1, we get:

[tex]\text{Moles of zinc hydroxide}=\frac{9.65g}{99.4g/mol}=0.0971mol[/tex]

The given chemical equation follows:

[tex]Zn+2MnO_2+H_2O\rightarrow Zn(OH)_2+Mn_2O_3[/tex]

By Stoichiometry of the reaction:

1 mole of zinc hydroxide is produced from 1 mole of zinc

So, 0.0971 moles of zinc hydroxide will be produced from = [tex]\frac{1}{1}\times 0.0971=0.0971mol[/tex] of zinc

Now, calculating the mass of zinc from equation 1, we get:

Molar mass of zinc = 65.4 g/mol

Moles of zinc = 0.0971 moles

Putting values in equation 1, we get:

[tex]0.0971mol=\frac{\text{Mass of zinc}}{65.4g/mol}\\\\\text{Mass of zinc}=(0.0971mol\times 65.4g/mol)=6.35g[/tex]

Hence, the mass of zinc required is 6.35 grams

5. Using the terms: metal and nonmetal, describe what types of atoms make up each type of
bond.

Answers

Answer:

See the answer below, please.

Explanation:

The bonds formed between metals and nonmetals are called ionics. These occur between atoms with electronegativity difference. Example: NaCl (Sodium Chloride)

Instead, covalent bonds are formed between two nonmetals (one or more electron pairs are shared). Example: H202 (hydrogen peroxide).

In the case of metal formed bonds, they are called metallic.

why do we consider diamonds a kind of metamorphic rock?

Answers

This is because the minerals that make up the rocks form only at certain temperatures and pressures. At high temperatures or pressures, the elements will rearrange their crystal structure to form a different mineral. Graphite and diamond are two minerals that are both made entirely out of carbon.

Final answer:

Diamonds are considered a metamorphic rock because they are formed through intense heat and pressure deep within the Earth's mantle, which transforms carbon into a crystalline structure. Unlike other metamorphic rocks that show foliation, diamonds are non-foliated as they consist of a single mineral.

Explanation:

We consider diamonds a kind of metamorphic rock because they are formed deep within Earth's mantle through a process of intense heat and pressure. This process transforms the carbon atoms into a crystal structure known as a diamond. Metamorphism involves the recrystallization of minerals and can lead to the formation of new minerals, the reorientation of minerals due to pressure, and sometimes the migration of ions within crystal structures due to heat. While most metamorphic rocks are found in mountain belts or ancient mountain belts due to the conditions conducive to metamorphism, diamonds are actually formed at much greater depths and require unique conditions including temperatures around 900 to 1,300 degrees Celsius, and pressures over 45 kilobars.

The formation of metamorphic rocks, including diamonds, is a facet of the rock cycle, and these transformations allow rocks to become stable under new environmental conditions. Unlike most metamorphic rocks that exhibit foliation due to the reorientation of minerals, diamonds do not show foliation as they are a single mineral rock, thus they are considered non-foliated. They are created from a single element, carbon, and although they have a different formation process compared to foliated metamorphic rocks, the principles of temperature and pressure still apply in their creation.

Which of the following is true for a cell that has a nucleus?
A. It will not have nuclear membrane. B. It will not have a nucleolus. C. It will not have ribosomes. D. It will not have a nucleoid.

Answers

Answer:

D. It will not have a nucleoid.

Explanation:

Cells with a nucleus are eukaryotic cells. This means they will have membrane-bound organelles. The nucleus is an example of a membrane bound organelle that houses the DNA.

A. It will not have nuclear membrane. - this is false, the nucleus is surrounded by the nuclear membrane

B. It will not have a nucleolus - this is false, the nucleolus is a part of the nucleus, usually where ribosomal RNAs are made

C. It will not have ribosomes - this is false, proteins are made in ribosomes and they are present in all cells

D. It will not have a nucleoid - this is true. The nucleoid is a space in the cytoplasm of prokaryotic cells that houses the DNA. It is not membrane bound, and is distinct from the nucleus.

Answer:

top answer is right for sur!

HAVE A GOOD DAY!!

Explanation:

Which phrase best describes the main reason scientist perform experiments

Answers

Answer: an experiment is an empirical procedure that arbitrates competing models or hypotheses. Researchers also use experimentation to test existing theories or new hypotheses to support or disprove them.

Explanation: I don't know if this helps but if it does let me know.

Final answer:

Scientists perform experiments primarily to test hypotheses, gather data, and validate or disprove their proposed explanations for phenomena. These experiments are essential for the advancement of scientific knowledge and are often peer-reviewed and published if the results are significant.

Explanation:

The main reason scientists perform experiments is to test a hypothesis which is a proposed explanation for a phenomenon, and to answer specific research questions. Experiments are carefully designed to collect data and analyze results objectively. If the results support the hypothesis, further experiments may be conducted to test related hypotheses, or if the results are inconsistent with the hypothesis, it may be discarded for a new alternative hypothesis.

By performing experiments, scientists aim to ensure repeatability and to explore underlying causes for observed phenomena. Experiments are a critical aspect of the scientific method, enabling researchers to extend their knowledge of the natural universe through empirical evidence. The design of an experiment is guided by the goal to make measurements that test the hypothesis, and often involves statistical, mathematical, or graphical analysis of the data collected.

Significant results get published in scientific journals, which serve to communicate the findings and contribute to the body of scientific knowledge. With the advent of open access and electronic journal availability, the dissemination of scientific knowledge has become more accessible.

Fe + _ H2SO4 _ Fe2(SO4)3 + _ H2

Answers

2Fe + 3H2SO4 ——-> Fe2(SO4)3 + 3H2


5)
A chlorine atom reacts with a sodium atom to form sodium chloride, NaCl. A chlorine atom can also react with another chlorine atom to form a chlorine molecule, Cl2. Which statement BEST explains the behavior of chlorine in these two reactions

Answers

Answer:

C

Explanation:

Answer: option C

Explanation:

A chlorine atom can form ionic bonds by accepting an electron and covalent bonds by sharing electrons

.92 moles of carbon dioxide, CO2, was produced when you burned C6H120. (glucose) with O2.
How many grams of water was also produced?
CGH 120(s) + 6 O2(g) – 6 CO2 (g) + 6 H20 (8)
O moles to moles
moles to mass
mass to moles
mass to mass

Answers

Answer:

16.56g.

Explanation:

You need to compare the number of coefficient of the reaction product to find how much water produced. The reaction formula will produce 6 carbon dioxide(CO2) and 6 water (H2O).

If the reaction produces 0.92 moles of carbon dioxide, then the amount of water produced in moles will be: 0.92 moles * (6/6)= 0.92 moles

The molar mass of water is 18g/mol, so the calculation of moles to mass will be: 0.92 moles * (18g/mol)= 16.56g.

20 POINTS !!!
Based on Gay-Lussac's law, which of the following statements is true for an ideal gas at constant volume and mole amount?

a - the number of collisions is independent of pressure
b - the number of collisions decreases with increase in pressure
c - pressure is directly proportional to the absolute temperature
d - pressure is inversely proportional to the absolute temperature

Answers

C. pressure is directly proportional to the absolute temperature

Explanation:

Gay- Lussac's law is defining a relationship between the pressure and temperature at a constant volume for an ideal gas.The law says that when there is an increase in the temperature of the ideal gas then the pressure of the gas is also increasing. There created a direct relationship between temperature and pressure. Option A tells us that collision and pressure are not related which is not true, Option B is saying that as pressure increases the collisions of the gas particles decreases which is not correct, Option C is drawing the correct relationship between pressure and temperature, and option D is talking the reverse of option C which is incorrect. Hence, the answer is C

Answer:

C. Pressure is directly proportional to the absolute temperature.

Explanation:

I took the test :)

What happens during a phase change from a solid to a liquid?

1.The particles the solid vibrate faster and faster. After a while, they stop all motion.
2.The particles of the solid vibrate slower and slower. After a while, they stop moving.
3.The particles of the solid vibrate faster and faster. After a while, they can start to move around.
4.The particles of the solid vibrate slower and slower. After a while, they can start to move around.

Answers

Answer:

The particles of the solid vibrate faster and faster. After a while, they can start to move around

Explanation: Solid particles movement are restricted due to the strong force of attraction between the molecules,Solid phase will only change to liquid phase if the forces of attraction holding the molecules together are broken down by heat, when this happens the solid particles movement will become more mobile as the substance is moving from solid phase and liquid phase

In this experiment, you will change the temperature and particle size of the antacid tablet and observe how these changes affect reaction. In the space below, write a scientific question that you answered by doing this experiment

Answers

Answer:

They change the rate of reaction.

Explanation:

Temperature increases the rate of reaction as particles move faster.

(Temperature is the average kinetic energy of particles)

Reducing the particle size increases the surface area to volume ratio, which increases the rate of reaction.

Answer:

Format: What are the effects of X and Y on Z?

Independent variable 1: temperature

Independent variable 2: particle size

Dependent variable: reaction rate

Explanation:

i just answered it on e2020

because the light rays never meet, a concave lens can produce

Answers

Answer:

Virtual images.

Hope this helps.

How many moles of oxygen are needed to react with 23.8 moles of aluminum?

Answers

Answer:

17.85moles

Explanation:

Check attachment

Other Questions
9 weeks 5 days - 1 week 6days = What is the indirect object in the following sentence?Please give her a copy of the article by tomorrow morning.A. articleB. byC. copyD. her Would you expect a brick-and-mortar retailer or an online retailer to have a higher asset turnover? Which supply chain drivers impact asset turnover? Which of the following statements is incorrect concerning the thermochemical equation below? 2SO3(g) 2SO2(g) + O2(g); H = 198 kJ a. The enthalpy of the reactants exceeds that of the products. b. For the reaction 2SO2(g) + O2(g) 2SO3(g), H = 198 kJ. c. The reaction is endothermic. d. The external pressure is 1 atm. e. For every mole of SO3(g) consumed, 99 kJ of heat at constant pressure is consumed as well. A pond initially contains 1000000 gal of water and unknown amount of an undesirable chemical. water containing 0.01 g of his chemical per gallon flows into the pond at a rate of 300 gal/h.the mixture flows out at the same rate ,so the amount of water in the pond remains constant .Assume that the chemical is uniformly distributed throughout the pond .How much of the chemical will be in the pond after a very long time ? A wedding is an example of a rite of passage. The celebration or party following the religious or secular wedding ceremony is an example of that phase of a rite of passage known as _________. SweepIt Cleaning Service reported the following amounts for the week ending November 4. The total amount earned by all employees is $2,193.40. The amount withheld for federal income tax is $263.00. Social security tax is $136.00, and Medicare tax is $31.80. Three of the employees each have $11.25 deducted for hospital insurance. The amount withheld for state income tax is $38.70. For each tax/withholding, identify if the amount will be recorded in PAYROLL or EMPLOYERS PAYROLL TAX transaction? Meiko is hanging a picture collage on her wall. The dimensions of the collage are shown in the diagram. She plans to coverthe collage with smaller pictures that have the same shape as the collage. If the base of each small picture is 4.5 inches andthe height is 3.5 inches, how many small pictures will fit within the collage? Prahm Corp. wants to raise $4.4 million via a rights offering. The company currently has 500,000 shares of common stock outstanding that sell for $45 per share. Its underwriter has set a subscription price of $20 per share and will charge the company a spread of 6 percent. If you currently own 3,000 shares of stock in the company and decide not to participate in the rights offering, how much money can you get by selling your rights? What are the solutions to the system of equations?y=x25x+6y=4x+6 (1,0) and (0,6) (0,6) and (1, 2) (1,0) and (6,0) (0,1) and (6,0) How do you do this question? Explain the significance of complementary base pairing in the conservation of the base sequence of DNA. Identify what structures in a skeletal muscle will shorten in length during contraction of the muscle. The mass of a single molybdenum atom is 1.5910-22 grams. How many molybdenum atoms would there be in 40.6 milligrams of molybdenum? Which expressions represent a quadratic expression in factored form? The Law of Demandnstruction ActiveThe Law of DemandUse what you have learned about demand to answer the question.Based on the law of demand, when the price of a specific good decreases, what will happen to the quantitydemanded?O It will increaseIt will decreaseO It will stay the same. A person paid $60 for a vase at an estate auction. She resold it to an antiques dealer for $40. What was her profit or loss? Write an explicit formula for the arithmetic sequence 15.6, 15, 14.4, 13.8,..., and then find the 32nd term. Who is you favorite Disney princess and why? I have a school project where I have to make a brief essay about each princess. Swinging Sammy Skor's batting prowess was simulated to get an estimate of the probability that Sammy will get a hit. Let 1 = HIT and 0 = OUT. The output simulation was as follows.1 0 0 0 1 0 0 1 0 0 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 0 0 1 1 1 1 0 0 0 0 0 1 1 1 1Estimate the probability that he gets a hit. Round to three decimal places.A. 0.286B. 0.452C. 0.476D. 0.301