A 5.00 L sample of helium at STP expands to 20.0 L. What is the new pressure on the gas?
Which must be the same when comparing 1 mol of oxygen, O2, with 1 mol of carbon monoxide has, CO?
Object A has 604 J of kinetic energy and 285 J of gravitational potential energy. Object B has 481 J of kinetic energy and 300 J of gravitational potential energy. Which object has more mechanical energy? Object A has more mechanical energy. Object B has more mechanical energy. They have the same amount of mechanical energy. There is not enough information to know.
Answer:
Object A has more mechanical energy.
Explanation:
Object A has more mechanical energy.
How many kj of heat are needed to completely vaporize 1.30 moles of h2o? the heat of vaporization for water at the boiling point is 40.6 kj/mole?
Explanation:
Heat of vaporization is defined as the amount of heat required to change one mole of a liquid into vapor state without any change in the temperature.
It is known that for 1 mole of water, latent heat of vaporization is 40.6 kJ/mol.
Therefore, heat of vaporization for 1.30 moles will be calculated as follows.
[tex]1.30 moles \times 40.6 kJ/mol[/tex]
= 52.78 kJ
Thus, we can conclude that the 52.78 kJ of heat are needed to completely vaporize 1.30 moles of [tex]H_{2}O[/tex].
Le Châtelier's principle tells us that chemical _____ will adjust in an attempt to remove a stressor.
a. formulas
b. equations
c. equilibrium
d. concentrations
Which quantity or quantities must always be the same on both sides of a chemical equation? (a) the number of atoms of each kind (b) the number of molecules of each kind (c) the number of moles of each kind of molecule (d) the sum of the masses of all substances involved?
Explanation:
An equation that contains same number of atoms on both reactant and product side is known as a balanced chemical equation.
Also, mass of substances involved and formed in a chemical reaction will be equal.
For example, [tex]2K + Cl_{2} \rightarrow 2KCl[/tex]
Number of K atoms on both reactant and product side are 2.
Number of Cl atoms on both reactant and product side are 2.
Therefore, this equation is balanced.
Also, mass of K = 39.09 g/mol, mass of Cl = 35.45 g/mol.
Sum of reactant molecules = [tex](2 \times 39.09 g/mol) + (2 \times 35.45 g/mol)[/tex]
= 149.08 g/mol
Sum of product molecules = [tex]2 \times (39.09 g/mol + 35.45 g/mol)[/tex]
= 149.08 g/mol
Therefore, masses of atoms involved is same on both reactant and product side.
Thus, we can conclude quantity or quantities that must always be the same on both sides of a chemical equation are as follows.
the number of atoms of each kind.the sum of the masses of all substances involved.The quantities which must always be the same on both sides of a chemical equation is:
(a) the number of atoms of each kind.
(d) the sum of the masses of all substances involved.
A chemical reaction refers to a chemical process that involves the rearrangement or transformation of the ionic, atomic or molecular structure of a chemical element through the breakdown and formation of chemical bonds in order to produce a new compound.
A chemical equation is typically used to denote or represent a chemical reaction between two or more chemical elements.
A balanced chemical equation is one in which the number of atoms on the reactant (left) side is equal to the number of atoms on the product (right) side.
This ultimately implies that, both the charge on each atom and sum of the masses of the chemical substances in a chemical equation are properly balanced.
Additionally, all chemical equations must be in accordance with the Law of Conservation of Mass because mass can neither be created nor destroyed.
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Why might someone choose to use U-238 over C-14 to determine the age of a specimen?
The half life of C-14 is 5700 years and that of U-238 is 4.5 billion years. So U-238 can be used to determine the age of ancient objects. U-238 is used to date the age of the Earth. U-238 is found in volcanic rocks but not in fossils. Fossils contain C-14 only. C-14 is used to date fossils of recent age.
Calculate h3o+ in an aqueous solution that is 0.10M NaNO2 and 0.055M HNO2
calculate the pressure in atm, if 0.00825 moles occupies 174 mL at -15 celcius.
T = 15°C = 288.15 K; temperature.
R = 0.08206 L·atm/mol·K, universal gas constant.
Ideal gas law: p·V = n·R·T.
p =
n·R·T / V.
p = 0.00825 mol · 0.08206 L·atm/mol·K · 288.15 K /
0.174 L.
p = 1.12 atm.
The pressure is calculated using the Ideal Gas Law. Given the moles, volume in liters, and temperature in Kelvin, the pressure is approximately 0.100 atm. This calculation involves converting units and applying the gas constant.
To calculate the pressure in atmospheres (atm) given the number of moles, volume, and temperature, we need to use the Ideal Gas Law formula:
PV = nRT
Here:
P is the pressure in atm.V is the volume in liters. Since the given volume is in milliliters (174 mL), we need to convert it to liters:174 mL × 0.001 L/mL = 0.174 L.
n is the number of moles, which is 0.00825 moles.R is the ideal gas constant, which is 0.0821 (L atm)/(K mol).T is the temperature in Kelvin. We need to convert the temperature from Celsius to Kelvin:T = -15 °C + 273 = 258 K.
Now, we substitute the known values into the Ideal Gas Law equation:
P × 0.174 L = 0.00825 moles × 0.0821 (L atm)/(K mol) × 258 K
Simplify and solve for P:
P = (0.00825 moles × 0.0821 × 258) / 0.174
P ≈ 0.100 atm
Assume that the rate law for a generic chemical reaction is rate = [a][b]3 . what is the reaction order in a, the reaction order in b, and the overall reaction order?
The order of reaction in a is 1 while the order of reaction in b is 3.
What is order of reaction?The rate law is obtained from the reaction equation or from experiment. We can determine the order of reaction by summing up the exponents in the rate law as shown in the equation of the rate law.
Now, we have; rate = k[a][b]3, the order of reaction in a is 1 while the order of reaction in b is 3.
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The energy stored in the motion or vibration of molecules in a substance is a definition for
A. heat.
B. work.
C. radioactivity.
D. electromagnetism.
explain why many compounds that contain one or more hydrogen atoms are not classified as arrhenius acids
Final answer:
Not all compounds containing hydrogen atoms are classified as Arrhenius acids because they do not release hydrogen ions when dissolved in water. Methane and acetic acid are examples of compounds that contain hydrogen atoms but are not classified as Arrhenius acids.
Explanation:
In order for a compound to be classified as an Arrhenius acid, it must release hydrogen ions (H+) when dissolved in water. However, not all compounds that contain hydrogen atoms are classified as Arrhenius acids because they do not release H+ ions. For example, methane (CH4) and acetic acid (CH3COOH) both contain hydrogen atoms but they are not classified as Arrhenius acids because their hydrogen atoms are not capable of ionizing.
A student pours exactly 26.9 mL of HCl acid of unknown molarity into a beaker. The student then adds 2 drops of the indicator and titrates the acid to neutrality using 43.7 mL of 0.13 M NaOH base.
a. Write and balance the neutralization reaction of the acid and base
b. What is the molarity of the acid?
Help Please earth science
Use the image to determine which of the following statements is true?
1) The granite is younger than unit B.2) Unit B and the granite are the same age.3) The relative ages of teh granite and unit B cannot be determined from the information given.4) Unit B is younger than the granite.A gas is contained in a thick walled balloon. when the pressure changes from 417 mm hg to 576 mm hg, the volume changes from ____ L to 4.78 L and the temperature changes from 497 K to 386 K
Answer: 8.5
Explanation:
What will be the effect on the amount of gas produced if the experiment is repeated using 0.35g of k?
The effect on the amount of gas produced if the experiment is repeated using 0.35g of potassium is that less amount of hydrogen gas is produced.
What is the stoichiometry?Stoichiometry of any reaction gives idea about the amount of species present and before the completion of the reaction.
Chemical reaction with repect to Lithium (Li) and Potassium (K) will be represented as:
2K + 3H₂O → 2H₂ + 2KOH
2Li + 3H₂O → 2H₂ + 2LiOH
From the stoichiometry of the reaction it is clear that 2 moles of K & Li produces 2 moles of hydrogen gas.
Moles will be calculated as:
n = W/M, where
W = given mass = 0.35g
M = molar mass
Moles of 0.35g Li = 0.35 / 6.9 = 0.0507 moles
Moles of 0.35g K = 0.35 / 39 = 0.0089 moles
From the moles of both elements it is clear that lithium will produce more gas.
Hence on replacing lithium with potassium, less gas will be produced.
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Which is an acceptable Lewis structure for a diatomic nitrogen molecule?
The Lewis structure for a diatomic nitrogen molecule would indicate a triple bond between the two nitrogen atoms, with each atom having a pair of lone electrons. The concept of resonance doesn't apply to this molecule.
Explanation:The diatomic nitrogen molecule has a triple bond between the two nitrogen atoms. A Lewis structure, in this context, represents the arrangement of electrons in a molecule. The Lewis structure for N2 would therefore show the nitrogen atoms sharing three pairs of electrons - indicating the triple bond - with each nitrogen atom also having one pair of lone (non-bonding) electrons.
Using the concepts of resonance and electron-pair geometries, it's possible to show that the actual distribution of electrons is an average between various possible Lewis structures. However, the resonance only applies to molecules where it's not possible to depict the molecule's structure using a single Lewis structure, as in the case of nitrogen dioxide (NO2) and related compounds, not diatomic nitrogen.
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An element found in another galaxy exists as two isotopes. if 80.0 percent of the atoms have an atomic mass of 80.00 atomic mass units and the other 20.0 percent have an atomic mass of 82.00 atomic mass units, what is the atomic mass of the element?
"what is the concentration of positive charge and mass in rutherford's atomic model called?"
What mass of KBr is present in 25 mL of a 0.85 M solution of potassium chloride?
Answer : The correct answer for mass of KBr = 2.53 g
Given :
Molarity of KBr solution = 0.85 M
Volume of KBr solution = 25 mL
Converting volume from mL to L ( 1 L = 1000 mL )
[tex] Volume of solution = 25 mL * \frac{1 L }{1000mL} [/tex]
Volume of solution = 0.025 L
Mass of KBr = ?
Mass of KBr can be calculated using following steps :
1) To find mole of Kbr :
Mole of KBr can be calculated using molarity .
Molarity : It is defined as mole of solute present in volume of solution in Liter .
It uses unit as M or [tex] \frac{mol}{L} [/tex]
It can be expressed as :
[tex] Molarity = \frac{mol of solute (mol)}{volume of solution (L)} [/tex]
Plugging value of molarity and volume
[tex] 0.85 \frac{mol}{L} = \frac{mol of Kbr}{0.025 L} [/tex]
Multiplying both side by 0.025 L
[tex] 0.85 \frac{mol}{L} * 0.025 L = \frac{mole of KBr}{0.025 L} * 0.025 L [/tex]
Mole of KBr = 0.02125
2) To find mass of Kbr :
Mass of Kbr can be calculated using mole . Mole can be expressed as :
[tex] Mole (mol) = \frac{mass (g) }{molar mass \frac{g}{mol} } [/tex]
Mole of Kbr = 0.02125 mol
Molar mass of KBr = 119.00 [tex] \frac{g}{mol} [/tex]
Plugging values in mole formula
[tex] 0.02125 mol = \frac{mass (g)}{119.00 \frac{g}{mol}} [/tex]
Multiplying both side by 119.00 [tex] \frac{g}{mol} [/tex]
[tex] 0.02125 mol * 119.00 \frac{g}{mol} = \frac{mass (g)}{119.00 \frac{g}{mol}} * 119.00\frac{g}{mol} [/tex]
Mass of KBr = 2.53 g
Final answer:
To find the new volume of a diluted 0.885 M KBr solution after dilution to 0.500 M, use the formula (M1×V1) / M2, resulting in a new volume of 266.85 mL.
Explanation:
The subject of this question is determining the new volume of a diluted potassium bromide (KBr) solution in chemistry. When a 0.885 M solution of KBr with an initial volume of 76.5 mL is diluted to a concentration of 0.500 M, we can use the concept of molarity (M), which is defined as moles of solute per liter of solution, to find the new volume.
To find the new volume (V2) after dilution, we can apply the formula M1×V1 = M2×V2, where M1 and V1 are the initial molarity and volume, and M2 is the final molarity. By rearranging the formula, V2 = (M1×V1) / M2. Substituting the given values, we get V2 = (0.885 moles/L × 76.5 mL) / 0.500 moles/L = 133.425 mL / 0.500 = 266.85 mL. Thus, the new volume is 266.85 mL.
If a sample of a certain solution is determined to have a [h3o+][h3o+] concentration of 4.91×10−44.91×10−4 moles/liter, what is its ph? round off your answer to one decimal place.
Which reaction may be described as an acid-base neutralization reaction? 1. be(oh)2 + h2so4 → beso4 + 2 h2o 2. ba(oh)2 + 2 licl → bacl2 + 2 lioh 3. naoh + h2o → h3o + + nao− 4. hno2 + h2o → h3o + + no− 2?
In alpha and beta decay the parent element and the daughter element can be
What volume of O2(
g. at 810. mmHg pressure is required to react completely with a 4.50g sample of C(s) at 48°C? 2 C(s) + O2(
g. → 2 CO(
g.
When bismuth-212 undergoes alpha decay, it becomes which of the following?
A asatine-208 + an alpha particle
B lead-210 + an alpha particle
C polonium-210 + and alpha particle
D thallium-208 + and alpha particle
What is the new mass/volume (m/v)% of a koh solution that is prepared by diluting 110 ml of a 6% (m/v) koh solution to 330 ml?
A substance that is not soluble in a polar solvent is
Iron, an important component of the steel used in the construction of buildings, bridges, and railroads, combines with oxygen to form fe2o3, which we recognize as rust. at room temperature, iron
What can the size and shape of a sand dune tell you about how it was formed?
What is the most abundant gas in our atmosphere?
1. oxygen
2. hydrogen
3. nitrogen
4. water