An atom has atomic number 5 and mass number 11. How many protons does the atom have? 5 6 10 11

Answer:

- 90.6 kJ/mol.

Explanation:

ΔHrxn = ∑ΔHf(products) - ∑ΔHf(reactants)

∴ ΔHrxn = ∑ΔHf(products) - ∑ΔHf(reactants)

∴ ΔHrxn = [(2*ΔHf(KCl)) + (3*ΔHf(O₂))] - [(2*ΔHf(KClO₃))] = [(2*(- 436.7 kJ/mol)) + (3*(0)] - [(2*(- 391.4 kJ/mol)] = [- 873.4 kJ/mol] - [- 782.8 kJ/mol] = - 90.6 kJ/mol.

The enthalpy change of the reaction 2KClO3 -> 2KCl + 3O2 is calculated by subtracting the sum of the enthalpies of the reactants from the sum of the enthalpies of the products. The calculation results in an enthalpy change of 90.6 kJ, meaning the reaction is endothermic.

The enthalpy change of the reaction can be calculated by subtracting the sum of the enthalpies of the reactants from the sum of the enthalpies of the products. This is also known as Hess's law.

In this reaction, the reactants are 2 moles of KClO3 and the products are 2 moles of KCl and 3 moles of O2. Hence, the enthalpy of the reaction can be calculated as follows:

Enthalpy change = [2 * (-391.4 kJ/mol)] - [2 * (-436.7 kJ/mol) + 3 * 0 kJ/mol]

= (-782.8 kJ) - (-873.4 kJ)

= 90.6 kJ

Therefore, the enthalpy change of this reaction is 90.6 kJ. If the enthalpy change is positive, the reaction is endothermic meaning it absorbs heat from the surroundings.

https://brainly.com/question/35890036

#SPJ6

Answer: 2.retains water, 4. are fine grained

Explanation:

Clay is a kind of soil. It exhibit fine grained particles. It retains the organic matter and inorganic minerals. The ability to retain water is because of fine grained size aggregate of clay. As this kind of soil can retain moisture and exhibit minerals it is suitable for the growth of plants.

Answer:

An atom becomes anion when it gains or loses electrons. The ions that are formed when an atom loses electrons are positively charged because they have more protons in the nucleus than electrons in the electron cloud.

Explanation:

Please mark brainliest and have a great day!

Answer: Sulfur atom will form a cation on loosing electrons.

Explanation:

There are 3 subatomic particles present in an atom. They are: protons, electrons and neutrons.

Protons carry positive charge, electrons carry negative charge and neutrons does not carry any charge.

Any neutral atom has equal number of protons and electrons.

An ion is formed when atom looses or gain electron.

If an atom gains electrons, it will have more number of electrons than protons. Thus, it will carry negative charge and form an anion.

If an atom looses electrons, it will have less number of electrons than protons. Thus, it will carry positive charge and forms a cation.

It is given that sulfur atom looses an electron. So, this atom will have more number of protons than electrons. Thus, it will form a cation.

Hence, sulfur atom will form a cation on loosing electrons.

As a temperature of a fixed volume of a gas increases, the

pressure will also “INCREASE”

The scientific theory is "an idea that is backed by data from many sources".

A scientific theory would be a justification for a feature of the natural world as well as the universe that already has undergone repeated testing and confirmation through using established procedures for observation and measurement but also outcome from evaluation.

The source would be defined as the origin of somebody else.

Therefore, the scientific theory is "an idea that is backed by data from many sources".

To know more about scientific theory and sources

https://brainly.com/question/2375277

#SPJ2

Answer:

A

Explanation:

During fission, heavier unstable atoms are split into lighter and more stable atoms with the release of energy. Fission of Uranium-235 produces Barium and Krypton (which are lighter and more stable atoms) and neutrons. Barium has an atomic mass of 141 while that of Krypton is 92.

Answer:

a

Explanation:

Answer:

A Mixture of two elements

Explanation:

The mass of CdCl₂ present in 10.0 mL of a 9 M solution is 16.47 grams.

Given:

Molar mass of CdCl₂ = 183 g/mol

Volume of solution = 10.0 mL = 0.010 L

Molarity of solution (concentration) = 9 M

The molarity (M) of a solution is defined as the number of moles of solute per liter of solution.

Molarity is commonly used to express the concentration of solutions in various chemical reactions and experiments.

To calculate the moles of CdCl₂:

Moles = Molarity x Volume

Moles = 9 M x 0.010 L

Moles = 0.09 mol

Now, to calculate the mass of CdCl₂:

Mass = Moles x Molar mass

Mass = 0.09 mol x 183 g/mol

Mass = 16.47 g

To learn more about the mass, follow the link:

https://brainly.com/question/11954533

#SPJ6

Answer:

The cell wall in plant cells is responsible for cell protection, providing structural support, and giving shape to the cell.

Explanation:

The cell wall in plant cells is responsible for cell protection, providing structural support, and giving shape to the cell.

To determine which compounds an unknown sample could be, based on its percent composition, involves calculating the empirical formula from the given percentages and comparing it with the provided compound options.

The question involves determining which compounds an unknown sample could be, based on its percent composition of 52.14% carbon, 13.13% hydrogen, and 34.73% oxygen. This requires an understanding of percent composition and the ability to calculate an empirical formula based on the given percentages. Given the complexity of the sample compositions and potential empirical formulas, it's essential to evaluate each option through stoichiometric calculations and compare their empirical formulas derived from the provided compositions to the actual compounds mentioned.

Answer:

HCL being a strong electrolyte dissociates in water to give H+ and Cl- ions. KMnO4 being a strong oxidising agent oxidises Chloride ion(Cl-) to Cl2. ... Hence more amount of KMnO4 is usedup which results in error in reading. The situation is completely the opposite with K2Cr2O7.

hope this helps

Answer:

0.004167 J/g°C is the specific heat of a substance.

Explanation:

[tex]Q=m\times c\times \Delta T[/tex]

[tex]Q=m\times c\times (T_{2}-T_1)[/tex]

Where:

Q =  heat absorbed(positive) or released (negative)

m = Mass of substance

c =  specific heat of a substance

[tex]T_1[/tex] = Initial temperature

[tex]T_2[/tex] = Final temperature

We have:

m = [tex]1.0\times 10^4 g[/tex]

c = ? , [tex]T_1=10^oC,T_2=70^oC[/tex]

Q = [tex]2.5\times 10^3 J[/tex]

[tex]2.5\times 10^3 J=1.0\times 10^4 g\times c\times (70^oC-10^oC)[/tex]

[tex]c=\frac{2.5\times 10^3 J}{1.0\times 10^4 g\times (70^oC-10^oC)}[/tex]

[tex]c=0.004167 J/g^oC[/tex]

0.004167 J/g°C is the specific heat of a substance.

Answer:

In general, a scientific law is the description of an observed phenomenon. It doesn't explain why the phenomenon exists or what causes it. The explanation of a phenomenon is called a scientific theory. It is a misconception that theories turn into laws with enough research.

Explanation:

Answer:

A scientific law is a description of an observed phenomenon.this is not an explanation of a phenomenon but a description.

Hypothesis becomes a law when  they follow a line of reasoning and formulate a theory.then once a theory has been evaluated through a series of testing it becomes a law.

Hope this helps and if it does pls mark as brainliest answer

Answer:

A negative beta particle

Yes

Explanation:

The incomplete equation of the reaction:

                  ²⁰³₈₀Hg → ²⁰³₈₁Tl + ?

In order to balance nuclear equations, we must conserve the mass number and atomic number.

For the mass number; 203 = 203 + a

                                         a = 0

             Atomic number; 80 = 81 + b

                                           b = -1

The unknown has no mass number but an atomic number of -1

This a  negative beta particle and it is designated as ⁰₋₁e

Answer:

1) Electron

2) Yes

The unknown solid with melting point of 78 degrees Celsius has been the molecular solid Naphthalene with formula [tex]\rm C_1_0H_8[/tex]. Thus, option A is correct.

Melting point has been defined as the temperature that has been able to transfer the solid to the liquid state.

The melting point has been higher for the substances with strong intermolecular interactions, and lower for weak attractive compounds.

The unknown sample has a melting point of 78 degree Celsius.

The molecular compounds have high melting point with strong intermolecular interactions, and ionic and covalent compounds have low melting point with weak intermolecular interactions.

The melting point of water has been zero degree Celsius.

Thus, the unknown solid with melting point of 78 degrees Celsius has been the molecular solid Naphthalene with formula [tex]\rm C_1_0H_8[/tex].

Thus, option A is correct.

Learn more about melting point, here:

https://brainly.com/question/25777663

The most likely identity of the unknown white solid with a melting point of 78 °C is naphthalene, a molecular solid with the formula C10H8, commonly used in mothballs.

If the unknown substance is a white solid at room temperature and has a melting point of 78 °C, the most likely candidate from the given options would be naphthalene, which is a molecular solid. This substance has the formula C10H8 and is well-known for its use in mothballs. It has a melting point close to the given temperature, whereas the other given substances have significantly higher melting points and different chemical and physical properties.

SiO2, or silica, is a covalent network solid and CaCl2, or calcium chloride, is an ionic compound. Both have melting points that are much higher than 78 °C. Meanwhile, H2O, water, is a molecular compound that is not a solid at room temperature, as it has a melting point of 0 °C. Therefore, option A, naphthalene, is the most likely identity of the unknown solid.

Answer:

The first option

Explanation:

Answer:

First Question, A, An atom consists of protons, electrons, and neutrons.

Second Question, B, A nucleus consists of protons and neutrons.

Explanation:

Answer:In science, a model is a representation of an idea, an object or even a process or a system that is used to describe and explain phenomena that cannot be experienced directly. Models are central to what scientists do, both in their research as well as when communicating their explanations.

Explanation:

Answer:

D. Changing the temperature will change Keq.

Explanation:

The equilibrium constant expresses the relationship between the molar concentration of reactants and products. This constant is the Keq. It is temperature dependent and constant at a given temperature.

A change in temperature of an equilibrium system shifts the system to a new equilibrium point. A rise in temperature shifts the equilibrium position to the direction that absorbs heat and vice versa.

In summary, a shift in equilibrium which results from temperature change is actually a change in value of the equilibrium constant.

Answer: D. changing the temperature will change the K eq

Explanation:

Answer:

The letter n represents Moles

Explanation:

The Ideal Gas Law. The letter P represents Pressure, the letter V represents Volume, the letter n represents Moles, the letter R represents a constant (a certain number to make the equation work together), the letter T represents temperature.

Yes, In the ideal gas law, 'n' represents the number of moles of a gas. This quantity, along with pressure, volume, and temperature, forms part of the equation PV = nRT, which describes the state of an ideal gas.

The ideal gas law is an equation that describes the relationship between pressure, volume, temperature, and the number of moles of a gas and is generally written as PV = nRT. Here, P stands for pressure, V is volume, R is the ideal gas constant, and T is the temperature in Kelvin. Chemists use moles when working with this law to relate the amount of substances in a more manageable way, as opposed to counting the vast number of individual particles directly.

The law illustrates that, for an ideal gas, if the density (connected to the number of moles) or the temperature goes up, the pressure of the gas also tends to increase. However, this relationship is most accurate when gases do not have strong interactions between particles. In cases where gas particles do interact strongly, such as when gases are not in the ideal state, the ideal gas law may not accurately predict the behavior of the gas.

Answer:H20

Explanation:

because it is the base that contributes electrons

Answer : The Lewis-base in this reaction is, water [tex]H_2O[/tex]

Explanation :

According to the Lewis acid-base theory,

Lewis acid : It is a substance that can accepts pairs of electrons to form a covalent bond.

Lewis-base : It is a substance that can donates pairs of electrons to form a covalent bond.

The given balanced equation is:

[tex]Fe^{3+}+6H_2O\rightarrow [Fe(H_2O)_6]^{3+}[/tex]

In this reaction, [tex]Fe^{3+}[/tex] ion is Lewis-acid and [tex]H_2O[/tex] is a Lewis-base. The [tex]H_2O[/tex] donates electrons to [tex]Fe^{3+}[/tex] ion to form [tex][Fe(H_2O)_6]^{3+}[/tex].

Hence, the Lewis-base in this reaction is, water [tex]H_2O[/tex]

Answer:

The three models describes the structure of an atom based on different views.

Explanation:

Plum pudding model described the atom of consisting of negatively charged electrons embedded in positively charged substrates; this was later proven to be false. The Bohr's model described the electrons in an atom to orbit round the nucleus at different energy, the closer it's to the nucleus, the lesser the energy it needs. The Rutherford model claims the the nucleus of the atom contains protons and neutrons which forms the mass of the atom, the electrons surrounds the nucleus and it forms the volume of the atom.

The atom has been the smallest unit of matter. It has been revealed with the varies studies and models proposed to deliver the accepted and well illustrated model.

The Plum pudding model has been the first atomic model proposed by J.J. Thomson. The  Rutherford model has been the well illustrated model of the atom.

The Plum pudding model has been proposed by J.J. Thomson, the Nuclear model by Rutherford, and the Bohr model has been proposed  by Bohr.

The atomic models have been proposed for the atom. All the models have been focused with a central positive nucleus, and negative electrons outside the nucleus.

The plum pudding model considered electrons to be distributed unequally outside the nucleus. The Nuclear model has been considered electrons to be present outside the nucleus in the orbital shells. The Bohr model has been able to explain the quantum address of the electron.

Learn more about atomic models, here:

https://brainly.com/question/1596638

valence of magnesium is 2

and valence of sulfate-ion is 2 too

answer: MgSO4•7H2O

Answer: [tex]MgSO_4.7H_2O[/tex]

Explanation:

[tex]MgSO_4[/tex] is an ionic compound because aluminium element is a metal and hydrogen element is a non-metal. The bond formed between a metal and a non-metal is always ionic in nature.

The nomenclature of ionic compounds is given by:

1. Positive is written first.

2. The negative ion is written next and a suffix is added at the end of the negative ion. The suffix written in case of [tex]SO_4^{2-}[/tex] is '-ate'.

Hence, the name of [tex]MgSO_4[/tex] is magnesium sulphate.

The water of crystallization is written as hydrate with the number of water molecules. As the name is heptahydrate, that means 7 water molecules are present.

Therefore, the correct answer is [tex]MgSO_4.7H_2O[/tex]

Answer:

Calcium Bromide

Explanation:

Metals like Calcium reacts with halogens like bromine to form Metal halides.

Metal + Halogen → Metal halide

The generally accepted names for compounds and elements are the IUPAC names,

Therefore for calcium and bromine, the IUPAC name of the salt formed is calcium bromide.

Answer:

Calcium bromide

Explanation:

   Calcium bromide is mainly used as dense aqueous solutions for drilling fluids. It is also used in medicines, freeze mixtures and photography.

  The nomenclature follows the general rule:

                               Anion Name + Cation Name

    But this is only effective for those salts that are classified as simple salts, which means, salts that dissociate into water and form only one cation and one anion.

    When we work with a salt called double, for example, this rule goes through some adjustments.  It is one that presents in its constitution the presence of two cations accompanying an anion or two anions accompanying a cation. For this reason, when these salts undergo the dissociation phenomenon in water, they release two cations or two anions, depending on the salt with which they are working.

   The double salt that has in its constitution two cations accompanying an anion is called double salt as the cation. To name such a salt, we must use the following naming rule:

           Anion name + name of the two cations

The name of each cation is written according to the order of electropositivity. Thus, the most electropositive cation will be written first.

Answer:

Because both the bonding electrons come from the oxygen atom.

Explanation:

A coordinate covalent bond is formed when both the bonding electrons are coming from the same atom.

Here in the given situation, when H+ forms a bond with the water molecule [tex] H _ 2 O [/tex] to form the hydronium ion [tex] H _ 3 O + [/tex], then it is referred to as a coordinate covalent bond since both the bonding electrons are coming from the oxygen atom.

Answer:

Both the shared electrons come from single atom

Explanation:

Coordinate covalent bond is a type of bond in which both the shared pair of electrons are come from single bond. Whereas in simple covalent bond, sharing electrons come from both the participant atoms.

Coordinate covalent bond is also called dative bond and the atom which share both the electrons are called donar atom.

For a coordinate covalent atom to from, one participant atom should have lone pair of electron and other atom should be deprived of electrons.

In [tex]H_2O[/tex] molecule, O atom has lone pair of electrons while H+ ions has deficiency of electrons, so O atom shares its lone pair of electrons with H+ ions which results in the formation of coordinate covalent bond and forms [tex]H_3O^+ molecules[/tex].

Final answer:

Potassium nitrate (KNO3) contains both ionic and covalent bonds within the compound, while potassium sulfate (K2SO4) is an example of a compound containing only ionic bonds.

Explanation:

An example of a potassium compound containing both ionic and covalent bonds is potassium nitrate (KNO3), and an example containing only ionic bonds is potassium sulfate (K2SO4).

Potassium nitrate is composed of potassium ions (K+) and nitrate ions (NO3−), with the nitrate being a polyatomic ion held together by covalent bonds between nitrogen and oxygen atoms. This compound demonstrates ionic bonding between potassium and nitrate ions, as well as covalent bonding within the nitrate ion itself.

On the other hand, potassium sulfate is made up of potassium ions (K+) and sulfate ions (SO42−). This compound is purely ionic, with the bonds forming from the electrostatic attraction between the positively charged potassium ions and the negatively charged sulfate ions.

Answer: The hydroxide ion concentration is [tex]1.26\times 10^{-4}M[/tex]

Explanation:

pOH is defined as the negative logarithm of hydroxide ion concentration in the solution.

To calculate the pOH of the reaction, we use the equation:

[tex]pOH=-\log[OH^-][/tex]

where,

[tex]pOH=3.90[/tex]

Putting values in above equation, we get:

[tex]3.90=-\log[OH^-][/tex]

[tex][OH^-]=1.26\times 10^{-4}M[/tex]

Hence, the hydroxide ion concentration is [tex]1.26\times 10^{-4}M[/tex]

Answer: 1.26 x 10 -4

Explanation:

Answer:

B

Explanation:

I looked it up and found the answer lol

Answer: Option (b) is the correct answer.

Explanation:

When Absalon stirred the solution which is containing salt in water then there will occur disturbance into solution due to stirring.

As a result, particles will come in motion and hence, they tend to gain more kinetic energy. Due to which there will be more number of collisions between the solute (salt) and solvent (water) particles.

Hence, rate of reaction will increase and because of this salt will readily dissolve into water.

Thus, we can conclude that the salt dissolve faster in Absalon's second experiment because stirring the salt and water increases particle motion, which causes more collisions to occur between the water and salt.