The molar amount of gas can most likely be found by using the ideal gas law. This is because the ideal gas law states pV = nRT. P, V, and T are the pressure, volume, and temperature, which are the known variables. The R stands for the Universal Constant of Gases; also known. Therefore, the unknown is n, the number of moles (molar amount) of gas, and so you would solve for n from the law.
Answer: A) The molar amount of gas
Credit to: @Edufirst
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need help please!!!!!!!
Which two objects have stored energy?
a ball rolling on the ground
a small rock sitting on top of a big rock
a stretched rubber band
a stone lying on the ground
Answer:
a small rock sitting on top of a big rock
a stretched rubber band
Explanation:
A small rock sittin on the top of a big rock has stored energy because of the potential energy that it contains, as well as the stretched rubber band in all the kinetic energy that is stored in the streched rubber band and it is just about to free it as soon as what is keeping it stretched liberates it.
307.0 mL of air is at 0 C. What is the volume (L) at 273 C
Use Charle's Law because we are dealing with volume and temperature.
[tex]\frac{v}{t} =\frac{v}{t}[/tex]
v₁= 3017.0 ml
t₂ = 0
v₂= ???
t₂= 273°C
Change all mL's to L because the question says "What is the volume (L)...".
3017.0 mL = 3.017 L
Change the temperature into Kelvins: Kelvin = Celsius + 273.15
0°C = 273.15 K
273°C = 546.15 K
Now you can plug it in the formula:
[tex]\frac{3.017}{273.15} = \frac{v}{546.15}[/tex]
Then, do cross multiplication.
(3.017) (546.15) = (273.15) v₂
1,647.73 = (273.15 K) v₂
Divide 273.15 on both sides
6.0296 L= V₂
Which equation correctly shows how you could calculate [OH-] from [H+]
Answer:
[OH⁻] = 10⁻¹⁴/[H⁺].
Explanation:
∵ [H⁺][OH⁻] = 10⁻¹⁴.
∴ [OH⁻] = 10⁻¹⁴/[H⁺].
Answer:
[tex]Kw = [H+][OH-][/tex]
Explanation:
For a given solution H+ refers to the hydrogen ion concentration and is indicative of the acidity of the solution. The more the [H+] concentration, higher is the acidity. Similarly, OH- refers to the hydroxide ion concentration and reflects the basicity of the solution. A solution with a higher OH- concentration is said to be basic.
The two are related by considering the dissociation of water:
[tex]H2O(l)\rightleftharpoons H+(aq)+ OH-(aq)[/tex]
The dissociation constant for water, Kw is:
[tex]Kw = [H+][OH-]\\\\where\ Kw = 10^{-14} \\\\10^{-14} = [H+][OH-]\\[/tex]
[tex][H+] = \frac{10^{-14}}{[OH-]}[/tex]
Inferences are A. never made by scientists. B. questions that are made by studying conclusions or predictions. C. exactly the same as observations. D. conclusions or predictions that are made by studying observations.
The Answer Is D. Have A Great Day
Answer:
D
Explanation:
How many molecules are there in 24 grams of FeF(3)?
Mole measure the number of elementary entities of a given substance that are present in a given sample. Therefore, 1.26×10²³ molecules are there in 24 grams of FeF[tex]_3[/tex].
What is mole?The SI unit of amount of substance in chemistry is mole. The mole is used to measure the quantity or amount of substance. We know one mole of any element contains 6.022×10²³ atoms which is also called Avogadro number.
Mathematically,
mole =given mass ÷ molar mass
given mass of FeF[tex]_3[/tex]=24 grams
Molar mass of FeF[tex]_3[/tex] = 112.84 g/mol
mole =24 ÷ 112.84
=0.21 moles
number of molecules/atoms=number of moles × 6.022×10²³
number of molecules=0.21 × 6.022×10²³ molecules
= 1.26×10²³ molecules
Therefore, 1.26×10²³ molecules are there in 24 grams of FeF[tex]_3[/tex].
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The minimum energy required to start a reaction
The answer to that question would be Activation energy. If would like me to elaborate just let me know. :)
Answer: Activation energy
Explanation:
Activation energy is the minimum energy required to initiate a chemical reaction.
It is the minimum energy required to excite reactant to break bonds and react with each other in the system while creating new products.
there are several ways to express solution concentration dilute concentrated ppm molarity molality normality all of these have one thing in common they describe the
B: quantity of solute with a specific volome of solvent.
Have a Nice Day :)
Answer: quantity of solute dissolved in a given quantity of solvent
Explanation:-
Dilute : is defined as a solution in which amount of solvent is more than the amount of solute.
Concentrated: is defined as a solution in which amount of solute is more than the amount of solvent.
ppm: ppm is defined as the concentration when 1 part of the solute is dissolved per 1 million of the solution.
Molarity: Molarity of a solution is defined as the number of moles of solute dissolved per Liter of the solution.
Molality : Molality of a solution is defined as the number of moles of solute dissolved per kg of the solvent.
Normality: Normality of a solution is defined as the number of ram equivalents of solute dissolved per Liter of the solution.
Your boss asks you to design a room that can be as soundproof as possible and provides you with three samples of material. The only information on each sample's label is the material's coefficient of absorption. The coefficient of absorption listed on Sample A is 30%, on Sample B is 47%, and on Sample C is 62%. When your boss asks for your choice and the reasoning behind it, what would you tell him?
sample c because it has the highest absorption
A chemical bond forms when the _____ of one element interact(s) with another element.
Atom
A chemical bond forms when the atom of one element interact(s) with an atom of another element.
Explanation;A chemical bond is an attraction between atoms, ions or molecules that enables the formation of chemical compounds.There are several types of chemical bonds, they include;Ionic bonding which involves the transfer of an electron, where one atom gains an electron while one atom loses an electron.Covalent bond which involves the sharing of electrons between two atoms. Polar bond and hydrogen bond among othersSound waves generated in a classroom must _______ through an open doorway in order to propagate into the hallway.
diffract through an open doorway in order to propagate into the hallway.
Answer:
Diffract
Explanation:
The diffraction of sound waves is the description of how sound waves bend, change direction, as they travel around the edges of obstacles. The diffraction occurs as a result of the bending of sound waves as they find the path of least resistance to the travel path. The amount and magnitude of the diffraction occurs in proportion to the opening in the obstacle pathway. The diffraction is a property of sound that helps it bend around the corners and obstacles.
Nuclear energy can be used to power _______. a. street lights b. businesses c. homes d. all of the above Please select the best answer from the choices provided A B C D
All the above
-street lights
-businesses
- Homes, etc
Explanation; Nuclear energy comes from splitting atoms in a reactor to heat water into steam, turn a turbine and generate electricity.Nuclear reactions are used to release nuclear energy that generate heat, which most frequently is then used in steam turbines to produce electricity in a nuclear power plant.Because nuclear power plants do not burn fuel, they do not produce greenhouse gas emissions.Nuclear energy may be used in a wide variety of fields as it generates high levels of electricity without causing damage to our environment and atmosphere.Answer:
D. all of the above
Explanation:
is potassium a metal, nonmetal, or metalloid?
Yes, potassium is a metal
Calculate the mass in grams of 3.94×1024 molecules of formaldehyde. The chemical formula for formaldehyde is CH2O.
Answer:
Mass in grams of formaldehyde = 196.51 g
Explanation:
No. of molecules of formaldehyde = [tex]3.94 \times 10^{24}[/tex]
Moles is related with number of molecules as:
[tex]mol=\frac{No.\ of\ molecules}{Avogadro's\ no.}[/tex]
Avogadro's no. = [tex]6.02 \times 10^{23}[/tex]
moles of formaldehyde
[tex]=\frac{3.94\times 10^{24}}{6.02\times 10^{23}} \\=6.544\ mol[/tex]
Molar mass of formaldehyde = 30.03 g/mol
Molar mass is related with mass as:
Mass = Moles × Molar mass
= 6.544 × 30.03
= 196.51 g
Convert 7.8 g of SO2 to moles
The answer is 0.12 moles of SO2.
The answer is 0.12 moles of SO2
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A lead cylinder (density=11.3 g/mL) is placed in a graduated cylinder that originally had a volume of water in it equal to 73.2 mL. After addition of the lead, the volume of the water in the cylinder reads 95.6 mL. What is the mass
Density = mass/volume.
You are given the density and asked to find the mass. So, you need to find the volume. According to Archimedes Principle, the volume displaced by an object is equal to the volume of that object. So, in this problem the volume of the lead is the same as the volume of water that it displaced. That would be
95.6 ml - 73.2 ml = 22.4 ml.
Density = mass/volume
11.3 g/ml = mass/22.4 ml
mass = 11.3 g/ml x 22.4 ml = 253 g (to 3 significant figures)
The problem deals with the concept of density and requires working out the change in volume when a lead cylinder is added to water. The mass of the lead cylinder is found by multiplying the density by the change in volume, providing an answer of approximately 253.2 grams.
Explanation:The problem you've outlined can be solved using the concept of density. Density is defined as mass per unit volume. In your case, the volume changes when the lead cylinder is added to the water providing the volume of the lead cylinder. This change in volume is calculated as 95.6 mL - 73.2 mL = 22.4 mL. Now, since density is mass/volume, we can find the mass by multiplying density by volume: (11.3 g/mL) * (22.4 mL) = 253.2 grams. So the mass of the lead cylinder is approximately 253.2 grams.
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When a H atom and a Cl atom react to form a HCl molecule,
When a hydrogen atom and a chlorine atom react to form a hydrogen chloride molecule, the hydrogen atom acquires a partial positive charge, and the chlorine atom acquires a partial negative charge.
Explanation:When a hydrogen (H) atom and a chlorine (Cl) atom react to form a hydrogen chloride (HCl) molecule, the hydrogen atom acquires a partial positive charge, and the chlorine atom acquires a partial negative charge. This is because of the electronegativity difference between hydrogen and chlorine. The hydrogen atom loses its electron to the highly electronegative chlorine atom, resulting in a partial positive charge on the hydrogen atom and a partial negative charge on the chlorine atom.
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H-H and Cl-Cl bonds break to HCl Formation bonds in an exothermic reaction. This results in hydrogen chloride or HCl, which behaves as an acid in water, producing hydronium and chloride ions.
When a hydrogen atom and a chlorine atom react, H-H bonds and Cl-Cl bonds are broken to form two moles of HCl.
The energy to break these bonds is 436 kJ/mol for the H-H bond and 243 kJ/mol for the Cl-Cl bond.
When the reaction takes place, two moles of strong H-Cl bonds form, releasing an energy of 864 kJ (432 kJ/mol for each bond).
Hence, the reaction is exothermic as more energy is released than consumed.
Furthermore, in HCl, hydrogen acquires a partial positive charge, while chlorine acquires a partial negative charge, contributing to the molecule's polar nature.
If dissolved in water, HCl behaves as an acid, transferring protons to water molecules and yielding hydronium ions and solvated chloride ions.
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The probable question may be:
When a hydrogen atom and a chlorine atom react with each other what does it formed?
Biomass can be used to generate electricity. Biomass relies heavily on agricultural crops. Plants release carbon dioxide and water in combustion. Plants use photosynthesis to originally generate the energy that is needed. The chemical energy of these plants all started with what energy source?
A) wind energy
B) solar energy
C) mechanical energy
D) geothermal energy
Solar energy.
This whole process starts with the solar energy. It also involves the sun within the process. Solar energy is radiant light and heat that comes from the sun. So it seems to fit in with the story that was given.
Best of luck on your assignment!
- Emacathy
Answer:
B) solar energy
Explanation:
A balloon with a volume of 8.00 L is known to contain 1.200 moles of gas. How many moles of gas remain if some of the gas is released and the new volume is 5.25 L. Assume temperature and pressure remain constant
Avagadros law states that at constant pressure and temperature conditions the volume is directly proportional to number of moles of gas
[tex]\frac{v1}{n1} = \frac{v2}{n2} \\[/tex]
where v1 is volume and n1 is number of moles at first instance
v2 is volume and n2 is number of moles after some of the gas is released
substituting the values in the equation
[tex]\frac{8.00 L}{1.200 mol} = \frac{5.25 L}{n2}[/tex]
n2 = 0.788 mol
after some of the gas is released only 0.788 mol remain
Mathematical representation of Charles law
Charles' Law is a special case of the ideal gas law. It states that the volume of a fixed mass of a gas is directly proportional to the temperature. This law applies to ideal gases held at a constant pressure, where only the volume and temperature are allowed to change.
Charles' Law is expressed as:
Vi/Ti = Vf/T f
where
Vi = initial volume
Ti = initial absolute temperature
Vf = final volume
T f = final absolute temperature
It is extremely important to remember the temperatures are absolute temperaturesmeasured in Kelvin, NOT °C or °F.
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Select the correct equalities for the units shown.
1 cm = 10 mm
1 ft = 3 yd
100 m = 1 cm
1 kg = 1,000 g
12 in = 1 ft
Enter the correct answer for each unit conversion.
mm = 5 cm
48 in =
ft
ft = 12 yd
2.5 m =
cm
1,000 mL =
L
Answer
1. 1cm=10mm, 1kg=1000g and 12in=1 ft
2. 50mm=5cm
48 in =4ft
36ft=12 yd
2.5m=250cm
1000mL= 1 L
Explanation
if 1cm=10mm then 5cm=?
5×10=50mm
if 12 in =1ft then 48in=?
48/12 =4 ft
if 1m=100cm, then 2.5m=?
2.5×100= 250cm
and when know from capacity that 1000mL is equivalent to 1 liter.
What is the percent by volume concentration of 58.0 mL of water in 920 mL of an acetic acid-water solution?
Answer:
= 5.93 %
Explanation:
Volume % of a component is given by the formula;
= (Volume of the component/Total volume of the solution) x 100
Volume of the component = 920 mL
Total volume of the solution = 920 + 58 = 978 mL
Therefore;
Cvolume % = 58 mL/978 mL × 100%
= 5.93 %
what is the hybridization of Cl2CO
the hybridization is probably sp2. it will have 1pi bond. There is a double bond between C and O atoms and that double bond consists of 1 pi bond and 1 sigma bond.
Final answer:
The hybridization of carbon in Cl₂CO is sp² due to three electron domains (two Cl atoms and one double-bonded O atom) resulting in a trigonal planar geometry.
Explanation:
The hybridization of the central carbon atom in Cl₂CO (phosgene) is sp². This is because the carbon atom is bonded to two chlorine atoms and an oxygen atom through a double bond. To determine this, we analyze the electron domains around the carbon atom. With three domains (two single bonds and one double bond), it adopts sp² hybridization, which allows for trigonal planar geometry. It is important to note that the double bond with oxygen consists of one sigma (σ) bond and one pi (π) bond. The pi bond results from the lateral overlap of unhybridized p-orbitals, whereas the sigma bond is formed by the head-to-head overlap of sp² hybrid orbitals from carbon and oxygen.
True or false aspects of motion include speed and direction
True is the answer hope this helps
What does LeChatelier’s principal mean
Answer: a principle stating that if a constraint (such as a change in pressure, temperature, or concentration of a reactant) is applied to a system in equilibrium, the equilibrium will shift so as to tend to counteract the effect of the constrain
HELP ASAP
A red capital "L" over your home on a weather map probably indicates _____. A. rain B. clear skies C. freezing weather D. changing weather
how much water do you need to add 10mL of a solution HCL with pH 3 to change the pH to 6
Who cares? unless you wanna be a scientist when you get older. this is pointless
10 mL more water is needed to do so...
The molality of a solution is a measure of -
A - moles of solute per kilogram of solution
B - moles of solute per liter of solution
C - moles of solute per kilogram of solvent
D - moles of solute per liter of solvent
Answer: Its C
Explanation: I did the test and got it correct
The molality of a solution is defined as the number of moles of solute per kilogram of solvent .The correct option is C.
Molality is a measure of the concentration of a solution because it expresses the amount of solute in a given amount of solvent.It is different from the molarity which is defined as the number of moles of solute per liter of solution .
The primary advantage of using molality as a measure of concentration is that molality only depends on the masses of solute and solvent, which are unaffected by variations in temperature and pressure. In contrast, solutions prepared volumetrically .
Thus, the correct option is 'C'.
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How many copper atoms are in a pure copper statue with a mass of 120 kg ?
Step #1: Convert to grams.
120kg × (1000g ÷ 1kg) = 120000g of copper
Step #2: Convert sample mass of copper to moles by dividing sample mass to its atomic weight. Atomic weights could be found in periodic table.
120000g Cu × (1mol Cu ÷ 63.55g Cu) = 1888.277mol Cu
Step #3: Convert moles to atoms by multiplying moles to Avogadro's number.
1888.277mol Cu × (6.022x10^23 ÷ 1mol Cu) = 1.137x10^27 atoms Cu
*I attached a picture to help out with conversions.
There is 120000 grams in a pure copper statue.
2C(s) + 2H2(g) → C2H4(g): ΔH = +52.4 kJ/mol
Which statement about this reaction is correct?
26.2 kJ of energy are absorbed for every mole of carbon reacted
Explanation;ΔH is the enthalpy change which is given by subtracting the energy of reactants from the energy of products.That is; ΔH = energy of products - energy of reactantsIn this case, it means that C2H4 has more energy than the the reactants. 52.4 J of energy to be precise, this energy is absorbed during the reaction.However, Two moles of Carbon require that much energy, thus one mole will require only 26.2 to react.Answer: D) 26.2 kJ of energy are absorbed for every mole of carbon reacted.
Which property is not important when selecting a material to use as a light bulb filament?
Answer:
When selecting a material to use as a light bulb filament, there are several important properties to consider. However, one property that is not important in this context is color. The color of the filament does not affect its functionality or performance as a light source.
The primary function of a light bulb filament is to produce light when an electric current passes through it, and its color does not impact this process. The color of the light emitted by the bulb is determined by other factors, such as the gases or coatings inside the bulb.
When selecting a material for a light bulb filament, important properties to consider include:
1. Resistance: The material should have high electrical resistance to prevent excessive current flow and overheating.
2. Melting Point: The material should have a high melting point to withstand the high temperatures generated by the electric current passing through it.
3. Conductivity: The material should have good electrical conductivity to efficiently carry the current and produce light.
4. Durability: The material should be durable enough to withstand repeated heating and cooling cycles without breaking or deforming.
5. Cost: The material should be cost-effective to produce in large quantities, as light bulbs are commonly used in everyday applications.
By considering these properties, manufacturers can select the most suitable material for the filament, ensuring optimal performance and longevity of the light bulb.