The enthalpy required to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C is 50. kJ.
We want to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C. We can divide this process in 2 parts:
Heating of liquid ethanol from 23 °C to 78.3 °C (boiling point).
Vaporization of ethanol at 78.3 °C.
1. Heating of liquid ethanol from 23 °C to 78.3 °C
The amount of heat required for this part (Q₁),
Q₁ = c × m × ΔT
Q₁ = (2.46 J/g °C) × 50 g × (78.3 °C - 23 °C) × (1 kJ/1000 J) = 6.8 kJ
where,
c = specific heat of liquid ethanol.
m = mass of ethanol.
ΔT = change in the temperature.
2. Vaporization of ethanol at 78.3 °C.
The amount of heat required for this part (Q₂),
Q₂ = (m/M) × ΔH°vap
Q₂ = [50 g/(46.07g/mol] × (39.3 kJ/mol) = 43 kJ
where,
m = mass of ethanol.
M = molar mass of ethanol.
ΔH°vap = enthalpy of vaporization of ethanol.
The total amount of heat required (Q) = the sum of the heat required in each step.
Q = Q₁ + Q₂ = 6.8 kJ + 43 kJ = 50. kJ
Let the process is carried out at constant pressure and the enthalpy required for the process = 50. kJ.
The enthalpy required to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C is 50. kJ.
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How many total ions would be present in the formula for indium fluoride?
The total ions which would be present in indium fluoride is +2
How indium fluoride has a total ions of +2It follows that indium is an element which has an ion of +3 while fluorine has +1 ion. So therefore, adding these two ions together in the formula of this compund indium fluoride is given below:
+3 + (-1)
= +3 - 1
= +2
That being said, this indium fluoride has a number of properties. Some of it few properties are as follows:
It is a solid substance It is an inorganic compoundIt is whitish in appearanceIts chemical formula is written as InF3.In conclusion, it can be deduced from the explanation above that indium fluoride is a compound.
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How do you calculate the actual yield if the percent yield isn’t given, but only the theoretical yield is given?
The actual yield cannot be calculated if the only theoretical yield is given.
Percent yield can be computed by dividing actual yield by theoretical yield. So in order to compute the unknown value 2 known values are to be given.
So, to find the actual yield, the values of percent yield and theoretical yield is to be known. If these two values are known then, the actual yield could be computed by-product of theoretical yield and percent yield.
This could be mathematically given as,
Percent yield = Actual yield/Theoretical yield
Actual yield = Percent yield x Theoretical yield
Therefore, without the percent yield value, the value of the actual yield cannot be computed if the only theoretical yield is given.
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A copper atom has a mass of 1.06 x 10 -22 g and a penny has a mass of 2.5 g. Use this information to answer the question below. Be sure your answers have the correct number of significant digits. How many moles of copper atoms have a mass equal to the mass of a penny? Round your answer to 2 significant digits.
The answer is 0.0392 mol of Cu atoms.
Solution:
1 Cu atom = 1.06 X10-22 g
we know that
1 mol of cu = 6.022 x10²³ atoms Cu
= 6.022 x 10²³ x 1.06 X10-22g
= 63.83g
∴ Mass of 1 mol cu is 63.83 g
NOW, 63.83g = 1 mol Cu
2.5g = [tex]\frac{1 mol x 2.5g}{63.83g}[/tex]
0.0392 mol of Cu atoms.
The molar mass of a molecular compound is the mass of the molecule in grams. It was a British penny. That's why we call the dime a penny. In 1857, Congress asked the Mint to make his dime smaller and mix copper and nickel.
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A process that is approaching equilibrium will have a ______ δsuniv value.
A process that approaching equilibrium will have a constant universal value.
Equilibrium constant value is the ration of the concentration of the product over reactant. we can use the value of K to predict whether the reactant and product of the reaction are at equilibrium or not. When a reaction approach equilibrium both the forward and reverse reaction are occuing. At equilibrium, the foreward and reverse reaction are at the same rate. That means when the has reached a point where the concentration of the reactant and product remains unchanged with time. It is because both the reaction have same rate. The value of the equilibrium is the ratio of the concentration of the product over the reactant.
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the average atomic mass of an elementselect one:a.may not equal the mass of any of its isotopes.b.is the mass of the most abundant isotope.c.cannot be calculated.d.always adds up to 100.
The average atomic mass of an element may not equal the mass of any of its isotopes.
Hence, option A is correct.
What is the meaning of atomic mass or weight?
Atomic Mass can be defined as the average mass of atoms of an element, which can be calculated using the relative abundance of isotopes in a naturally-occurring element. It indicates the size of an atom. Mass of molecules can be determined by adding the average atomic mass of each atom in the molecule.
Example of Atomic mass is
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Calculate the wavelength (cm) of radiation if its frequency is 1.50 x 1010 KHz. Please help me
The wavelength (cm) of radiation if its frequency is 1.50 x 1010 KHz is 2 × 10^(-7) m.
What is frequency?Frequency is defined as the number of occurrences of the Repeating event per unit of time. It is also defined as the occasionally which referred to as the temporal frequency which emphasize the contrast to the spatial frequency, and the ordinary frequency which emphasize the contrast to angular frequency.
What is wavelength?Wavelength is defined as the distance between the two identical points (or adjacent crests) in the adjacent cycles of the waveform signal which is propagating in space or along a wire. In wireless systems, this length is mainly specified inc centimeters (cm), meters (m), or millimeters (mm).
As we know that,
Frequency is inversely proportional to the wavelength.
w = c / f
Given,
speed of. light = 3 × 10^6
w = 3 × 10^6/ 1.50 x 10^(13)
= 2 × 10^(-7) m.
Thus, we concluded that the wavelength (cm) of radiation if its frequency is 1.50 x 1010 KHz is 2 × 10^(-7) m.
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how many milliliters of a 0.150 m hcl solution are needed to neutralize 25.85 ml of a 0.375 m koh solution?
Milliliters of a 0.150 m HCl solution are needed to neutralize 25.85 ml of a 0.375 m KOH solution is 172 ml
Milliliters is the very small amount if liquid
Here given data is
HCl solution = 0.150 m
KOH solution = 0.375 m
Neutralize = 25.85 ml
We have to calculate milliliters = ?
And the reaction is
HCl + KOH → KCl + H₂O
Molarity = mol solute/ L solution
Mol KOH = (0.375 mol/L) 25.85 ml = 0.02585 L = 0.02585 mole of KOH
The coefficients of the chemical equation to find the relative number of moles of HCl
0.02585 mole of KOH ( 1mol HCL/1 mol KOH) = 0.02585 mol HCl
Molarity equation again to find the volume of HCl solution
Molarity = mol solute/ L solution
L HCl solution = 0.02585 mol HCl/ 0.150 m = 0.172 L = 172 ml
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A 345. g sample of an unknown substance was heated from 45.0°C to 167.7°C. In the process, the substance absorbed 18.942 kJ of energy. What is the specific heat of the substance? Give your answer in both standard and scientific notation.
Was this an endothermic or exothermic process?
The specific heat capacity of the subtance of mass 345 g is 447.47 J/kgK. And the process is exothermic.
What is specific heat capacity?The specific heat capacity is defined as the quantity of heat (J) absorbed per unit mass (kg) of the material when its temperature increases 1 K (or 1 °C), and its units are J/(kg K) or J/(kg °C).
To calculate the specific heat capacity of the susbtance, we use the formula below.
Formula:
c = Q/(mΔt)......... Equation 1Where:
c = Specific heat capacity of the substancem = Mass of the substanceΔt = Change in temperature.Q = Quantity of heatFrom the question,
Given:
m = 345 g = 0.345 kgΔt = (167.7-45) = 122.7 °CQ = 18.942 kJ = 18942 JSubstitute these values into equation 1
c = 18942/(122.7×0.345)c = 447.47 J/kgK.Since the process absorb heat, it is endothermic.
Hence, the specific heat capacity of the subtance is 447.47 J/kgK. And the process is endothermic.
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calculate the ph of a solution prepared by mixing 0.0750 mol of chloroacetic acid plus 0.0180 mol of sodium chloroacetate in 1.00 l of water.
When 0.0750 mol of chloroacetic acid and 0.0180 mol of sodium paients are combined with 1.00 l of water, the resulting solution has a pH of 2.373.
Chloroacetic is why?Stronger than acetic acid CH3-COOH is chloroacetic acid Cl-CH2-COOH. Cl is a group that removes electrons. By dispersing negatively charged by an inductive effect and stabilising the acetate anion, it makes acetic acid more acidic.
Chloroacetic acid is more, why?In chloroacetic acid, the Cl- ion has a -I effect that lowers the electron of the carboxylic group's O-H bond, whereas in acetic acid, the CH3 group has a +I impact that raises the O-H bond's electron density. Consequently, acetic acid is less acidic than chloroacetic acid.
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How many electrons can be held in the energy level n = 4?
How many electrons in an atom can share the quantum numbers n = 4 and l = 3?
14 electrons in an atom can share the quantum numbers n = 4 and l = 3
32 electrons can be held in the energy level n = 4
An electron is negatively charged subatomic particles that can be either bound to an atom or free means not bound and fourteen electron can be represented by the value n = 4 and I = 3 and quantum number n = 4 is the fourth energy level and which can be thought of as the distance from the nucleus and if I = 3 the electron are in f subshell and the number of orbital with a quantum number I is 2I + 1 so there are 2×3+1 = 7 f orbital so each orbital can hold two electron and so the f subshell can hold 14 electron
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Is there an element that is G?
Answer:
Gadolinium 64
Gallium 31
Germanium 32
Explanation:
There is no such element as G in the periodic table.
What is an element?
A chemical element is a type of atom with a particular number of protons in the nucleus, such as the specific compound made up entirely of that species. Chemical elements, unlike chemical compounds, cannot be broken down into simpler substances by any chemical reaction. The number of protons in the nucleus is an element's defining attribute, and it is symbolised by the symbol Z - all atoms with the same atomic number are atoms of the same element. Atoms are rearranged into new compounds linked together by chemical bonds when various elements undergo chemical reactions.
There is no such element as G in the periodic table.
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What would a student need to know in order to figure out a formula for compound containing a group 16 nonmetal?.
"Will group 16 elements gain electrons to bond with group 2 in an XY format in periodic table would a student need to know in order to figure out a formula for compound containing a group 16 nonmetal.
From one side of the periodic table to the other, properties of elements within a period vary in a predictable manner. A horizontal row represents a period in the periodic table. The number of electron shells is the same for every atom in a row. Moving through a period causes elements to acquire electrons and protons and become less metallic. -Elements in the same period have the same number of electron shells.
As the atomic number rises, comparable features reoccur on a regular basis, which is reflected in this arrangement. From one side of the periodic table to the other, properties of elements within a blank shift in a predictable manner. those with comparable qualities are displayed in a column.
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What is the new volume of a 4.00-liter sample of CO(g) when its pressure
changes from 10.0 kPa to 70.0 kPa?
0.571 mL
1.75 mL
4.00 mL
175 mL
The new volume of a 4.00-liter sample of CO(g) when its pressure changes from 10.0 kPa to 70.0 kPa is 0.57L.
How to calculate volume?Boyle's law states that the pressure of an ideal gas is inversely proportional to its volume at constant temperature.
The volume of a gas can be calculated using the Boyle's law equation as follows:
P₁V₁ = P₂V₂
Where;
P₁ = initial pressureV₁ = initial volumeP₂ = final pressureV₂ = final volumeAccording to this question, a 4.00-liter sample of CO(g) had its pressure changed from 10.0 kPa to 70.0 kPa. The new volume can be calculated as follows:
4 × 10 = V₂ × 70
40 = 70V₂
V₂ = 0.57L
Therefore, 0.57L is the new volume of the gas.
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Ionic compounds that use neon
An ionic compound that uses neon is that neon does not easily form ionic compound because neon belongs to noble gases and they are extremely stable and their reactivity is practically nil.
Neon is belongs to group 18 which is noble gases. noble gases have 8 valence electron in the outer most shell and that follow the octet rule. noble gases are extremely stable in the periodic table. so, they are very less reactive or we can say that non reactive gases.
Thus, An ionic compound that uses neon is that neon does not easily form ionic compound because neon belongs to noble gases and they are extremely stable and their reactivity is practically nil.
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help i suck at chemistry
Answer:
1. Acid - Red
2. Base - Yellow
3. Salt - Yellow if the reaction produces a base
Explanation:
In an acidic medium, methyl orange turns red, while in a basic medium, it turns yellow.
Sodium chloride solution produces sodium hydroxide, NaOH which is a strong base. Using methyl orange as an indicator gives a yellow colour solution for NaOH.
There are acidic, neutral, and basic salts. Sodium chloride (NaCl) produces a base therefore it would turn yellow as well but likely less distinct than the base.
Answer:
Hello methyl orange is a pH indicator that is commonly used.
If you drip methyl orange to an acidic liquid it will give you the color red.
If it turns yellow after you drip it then the liquid should be a base.
And it gives a yellowish color for neutral liquids
But in this case salt (NaOH) has an exceptional situation which turns orange after adding m.o.
There is no logical explanation (at least for high school level) I am afraid that you need to memorize it.
This chard attached below may help you to recognize it
good luck, hope it helped<3!
A rock rests on the ground. A force pulls the rock toward the earth, and another force pulls the rock toward the moon.
Why does the rock stay on the ground?
Answer:
Gravity
Explanation:
it is what hold people on the earth
an unknown element, x, reacts with oxygen to form two oxides with the general formula xo and x2o3. the pure element is paramagnetic, and the oxides are basic. which of the following elements could be represented by x?
The following elements could be represented by x as sb.
Elements are represented by their chemical symbols sometimes with atomic and mass numbers, as shown below. The mass number is the sum of the number of neutrons and protons in the nucleus. Scientists have standardized a simple way to represent elements with their chemical symbols.
One of the main reasons for development is that using letters is the easiest way to represent elements. Another reason to use chemical symbols is that they make it easier to write chemical formulas. The periodic table is a tabular arrangement of the chemical elements from hydrogen which has the lowest atomic number to oganesson which has the highest atomic number. The atomic number of an element is the number of protons in the nucleus of that element.
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each of the flasks you used for the standardization of naoh had initially turned pink with the addition of phenolphthalein, but the color disappeared when you added khp to each (and you did not rinse the flasks and start over).
Standardization of a solution is performed by titration. The NaOH will be titrated into a known quantity of acid. Faint pink color is obtained.
Standardization of a solution is carried out by way of titration. The NaOH might be titrated into a recognised quantity of acid. In this situation, the amount of NaOH delivered to the acid is recorded, and the use of that price, the concentration of NaOH is calculated.
For the standardization of the NaOH solution, the endpoint turned into continuously reproduced to a faint pink color. But, the endpoint for the titration of the acid answer turned into constantly reproduced to a dark pink color.
You'll standardize NaOH and HCl solutions so you realize the precise attention and then put together samples of common family objects with a purpose to determine the amount of calcium in Mg(OH)2 in Milk of Magnesia, and many others.
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write the complete electron configuration for the common monatomic ion formed by the element rubidium , rb . this ion is a(n) with a charge of fill in the blank 3 .
1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6 5s1 electron configuration for the common monatomic ion formed by the element rubidium , Rb.
The shape and energy of an atomic species' electrons may be understood by looking at its electron configuration, which is the accepted nomenclature for describing an atom's electronic structure, whether it be neutral or ionic. We allow each electron to occupy an orbital under the orbital approximation, which can be solved by a single wavefunction. By doing this, we are able to produce the identical three quantum numbers (n, l, and ml) that were produced when Schrodinger's equation for Bohr's hydrogen atom was solved.
The Aufbau Principle, Hund's Rule, and Pauli-Exclusion Principle are three broad guidelines for determining the electron configuration of an atomic species.
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if there is 80 μmol of the radioactive isotope 32p (half-life 14 days) at t = 0, how much 32p will remain at 5 days:
Half life for remaining 5 days is 80. e-0.25 .
Half life period is the time needed by a radioactive substances to transform into a different substance. It is the interval of time required for the one half of the atomic nuclei of a radioactive sample to decay. Half life is calculated by finding the decay constant of a substance then dividing it by 2. Decay constant of a radioactivity is probability of decay per unit time.
Here half life 32P is 5 days.
The concentration of the radioactive isotope is the total amount of radioactivity per unit volume. The expression for calculating concentration of radioactive isotope at half life is ,
[A] = [A] e-kt
t1/2= 0.693/K
K= 0.693/ t1/2=0.05days
Now substituting value of K and t in the expression
[A]= [A]e-kt
= 80 .e-0.25
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73.0mL of nitrogen at STP is heated to 80.0*c and the volume increases to 4.53 L what is the new pressure
The new pressure of a nitrogen gas at STP is 0.021atm.
How to calculate pressure?The pressure of a gas can be calculated by using the combined gas law equation as follows:
P₁V₁/T₁ = P₂V₂/T₂
Where;
P₁, V₁ and T₁ are the initial pressure, volume and temperature respectivelyP₂, V₂ and T₂ are the final pressure, volume and temperature respectively.At STP, a gas has the following:
P = 1atmT = 273K0.073 × 1/273 = 4.53 × P/353
0.0002674 × 353 = 4.53P
P = 0.021atm
Therefore, 0.021atm is the pressure of the nitrogen gas.
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The new pressure of the gas would be 0.0208 atm.
General gas lawAccording to the general gas law, the ratio of the product of the pressure and volume to its temperature is constant.
The general gas law is summarily expressed as the following equation:
[tex]p_1v_1/t_1[/tex] = [tex]p_2v_2/t_2[/tex]. where:
[tex]p_1[/tex] = initial pressure of a gas
[tex]v_1[/tex] = initial volume of the gas
[tex]t_1[/tex] = initial temperature of the gas
[tex]p_2[/tex] = final pressure of the gas
[tex]v_2[/tex] = final volume of the gas
[tex]t_2[/tex] = final temperature of the gas
In this case:
[tex]p_1[/tex] = standard pressure = 1 atm
[tex]v_1[/tex] = 73 mL or 0.073 L
[tex]t_1[/tex] = standard temperature = 273 K
[tex]p_2[/tex] = ?
[tex]v_2[/tex] = 4.53 L
[tex]t_2[/tex] = 80 + 273 = 353 K
[tex]p_2[/tex] = [tex]p_1v_1t_2/t_1v_2[/tex]
= 1x0.073x353/273x4.53
= 25.769/1236.69
= 0.0208 atm
Thus, the new pressure of 73.0 mL nitrogen that was heated to a volume of 4.53 L at STP is 0.0208 atm.
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1) Aluminum is...
a) An element composed of atoms.
b) An element of diatomic molecules.
c) An ionic compound.
d)A covalent compound (composed of molecules made
from more than one type of atom)
Answer:
a) An element composed of atoms.
Explanation:
Ionic compounds are compounds composed of ions, charged particles that form when an atom. (or group of atoms) gains or loses electrons,There may or may not be more than one of each element. A diatomic compound (or diatomic molecule) contains two atoms, which may or may not be the same.
PLEASE GIVE BRAINLIEST THANK YOU!!!
Answer:
There may or may not be more than one of each element. A diatomic compound (or diatomic molecule) contains two atoms, which may or may not be the same.Ionic compounds are compounds composed of ions, charged particles that form when an atom. (or group of atoms) gains or loses electrons.
Explanation:
d)A covalent compound (composed of molecules made
from more than one type of atom)
Chemical formulas show the number and type of atoms in the _____ representation of a substance.
Chemical formulas show the number and type of atoms in the smallest representation of a substance.
In the field of chemistry, a chemical formula can be described as a representation of the different kinds of chemical elements that are present in a chemical reaction. The chemical formula also shows the number of atoms for each of the atoms that will be present in a chemical reaction or a chemical compound.
As chemical formulas only represent the types and no.of atoms, they are known to be the smallest representation that helps us to know what is present in a substance and what is the number of atom ratio of one element compared to another in that substance.
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What is the boiling point of a solution that contains 1.00 kg of water and each of the following quantities of solute? (a) 3.98 moles of glucose (a molecular °C compound) (b) 3.04 moles of lactose (a molecular °C compound) (C) 2.77 moles of NaCl (an ionic °C compound) (d) 4.20 moles of Na3PO4 (an ionic °C compound)
102.037 °c is the boiling point of a solution that contains 1.00 kg of water .
Solution ∆Tb = 1 × given problem is based on colligative property elevation in boiling point
∆Tb = ikbm
I is vanthoff factor
kB is boiling constant for solvent = 0.512 °c kg /mol
m is molality = number of moles of solute ÷ mass of solvent (kg)
Tb is elevation in boiling point
For water boiling point is 100 °c
So the new temperature will be ( 100 °c + Tb )
A) ∆Tb = 1 × 0.512 × ( 3.98 ÷1) = 2.037°c
Temperature of of compound is 102.037 °c
B)∆Tb = 1 × 0.512 × ( 3.04 ÷1) = 1.55°c
Temperature of compound is 101.55 °c
C) ∆Tb = 2 × 0.512 × ( 2.77÷1) = 2.8 °c
Temperature of compound is 102.8 °c
D) ∆Tb = 4 × 0.512 × ( 4.20 ÷1) = 8.6°c
Temperature of compound is 108.6 °c
osmotic pressure = molarity × gas constant × temperature × vanthoff factor
For KCl & NaBr vanthoff factor is 2 .
At same temperature ,
Osmotic pressure of KCl / osmotic pressure of NaBr = molarity of KCl / molarity of NaBr = 0.25M /0.2 M = 1.25
Ratio to be find out is 1.25 .
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If you have 2 moles of iron chloride (fecl3) and dissolve it in water to a final volume of 1l of water, what is the molarity and osmolarity of the solution?.
What is molarity?
Molarity is defined as the number of moles of solute per liter of solution.
M = n / V
where
n = no of moles ( 2 mol)
M = Molarity ?
V = volume of solution ( 1 itre)
M = n / V
= 2 mol / 1 litre
= 2 mol/L
What is Osmolarity?
It is a process of measurement of solute concentration. It is number of osmoles (Osm) of solute per litre (L) of solution (osmol/L or Osm/L).It is usually written as Osm/L. This resultant number is of higher importance as it allows measurement of the osmotic pressure of a solution and determination of how the solvent will diffuse across a semi-permeable membrane separating two solutions of different osmotic concentration.Osmolarity = Molarity × number of particles of dissociation (n)
For ex: Sodium chloride(NaCl) in water dissociates into two particles (Na+ and Cl–) and Magnesium chloride (MgCl2) in water dissociates into 3 particles (Mg++ and 2 Cl–)according to question, FeCl₃ = 1 Fe + 3Cl , where n = 4
Osmolarity = molarity × n
= 2 ×4
= 8 osmol / L
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If metals and non-metals make bonds and non-metals and non-metals make bonds, can metals and metals do the same? How?
Yes, metals and metals make bonds with one another forming a new substance.
Can metal and metal bond with one another?Metallic bonds occur between metal atoms whereas ionic bonds combine metals with non-metals. The metallic bonding joins metal atoms with each other. A sheet of aluminum foil and a copper wire are fused with the help of metallic bonding.
Metallic bonding is mostly non-polar because in alloys there is less difference among the electronegativities of the atoms that contribute to the bonding interaction of the two metals. Thus, metallic bonding is an extremely delocalized form of covalent bonding. Metals can make a bond with each other on macroscopic level as well as on a molecular level. The pieces of metal are held together with the help of metallic bonding.
So we can conclude that metals and metals do the same as metals and non-metals.
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At STP, 5.6 liters of CH4 contains the same number of molecules as
1.4 L of oxygen
2.8 L of ammonia
5.6 L of hydrogen
11.2 L of neon
5.6 L of [tex]CH_{4}[/tex] contains the same number of molecules 5.6 L of [tex]H_{2}[/tex].
Define mole.
The mole is always the SI unit used to measure a substance's quantity.
Define molecules.
The smallest particle of a substance. It contains 2 or more atoms.
5.6 L of [tex]CH_{4}[/tex]:
No of moles=Given volume/molar volume
= [tex]5.6/22.4[/tex]
= [tex]0.25[/tex]
No of molecules=No of moles*Avagadro's number
= [tex]0.25*6.023*10^{23}[/tex]
= [tex]1.51*10^{23}[/tex]
5.6 L of [tex]H_{2}[/tex]:
No of moles=Given volume/molar volume
= [tex]5.6/22.4[/tex]
= [tex]0.25[/tex]
No of molecules = No of moles * Avagadro's number
= [tex]0.25*6.023*10^{23}[/tex]
= [tex]1.51*10^{23}[/tex]
Therefore, the answer is 5.6 L of [tex]H_{2}[/tex].
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can an exothermic process be non-spontaneous? group of answer choices no, because entropy increases in the surroundings no, because exothermic processes are always spontaneous it depends on the temperature yes, if entropy of the system decreases sufficiently
The exothermic process be non-spontaneous.
What is exothermic process?
Exothermic reactions are those in which energy is released chemically as heat or light. The chemical equation for these reactions, which are the opposite of endothermic reactions, is as follows: Products plus energy equals reactants.
What is entropy?
Entropy can be defined in terms of the statistical probabilities of a system or in terms of the other thermodynamic quantities and is simply a measure of how much the energy of atoms and molecules spreads out during a process.
Therefore, the G = H-TS equation illustrates how a high temperature and a negative entropy can cause an exothermic reaction to be non-spontaneous.
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A 2 L of hydrogen gas is filled in a rubber ball at 10 °C. Calculate the final volume of the gas, if the temperature increases to 80 °C.
The final volume of the hydrogen gas that is filled in a rubber ball at 10 °C is 2.495L.
How to calculate volume?The volume of a gas can be calculated using the following Charles's law equation;
V₁/T₁ = V₂T₂
Where;
V₁ = initial volumeT₁ = initial temperatureV₂ = final volumeT₂ = final temperatureAccording to this question, 2L of hydrogen gas is filled in a rubber ball at 10 °C. The final volume of the gas, if the temperature increases to 80 °C is as follows:
2/283 = V/353
V = 2.495L
Therefore, 2.495L is the final volume of the hydrogen gas.
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A piece of iron (specific heat, 0.444 J/g•°C) is added to 109.92 grams of water (specific heat, 4.184 J/g•°C) in a calorimeter. The water was initially at a temperature of 26.3°C and the iron was initially at 125°C. If the final temperature of the system is 34.9°C, what is the mass of the iron
The mass of the piece of iron is 98.87grams.
How to calculate mass in a calorimetry procedure?Calorimetry is the science of measuring the heat absorbed or evolved during the course of a chemical reaction or change of state.
The calorimetry equation to evaluate the energy required or released is as follows:
Q = mc∆T
Where;
Q = amount of energy in Joulesm = mass (g)c = specific heat capacity∆T = change in temperatureHowever, since two materials are involved, the following applies;
mc∆T (water) = - {mc∆T} (metal)
109.92 × 4.184 × (34.9 - 26.3) = - {m × 0.444 × (34.9 - 125)}
3,955.18541 = 40.0044m
m = 98.87grams.
Therefore, 98.87 grams is the mass of the iron metal.
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