N2 + 3 H2 -> 2 NH3
How many mols of N2 will be produced if it reacts with 2.5 x 1021 molecules of N2
which type of reaction occurs when 50mL quantities of 1 M Ba(OH)2 (aq) and H2SO4 (aq) are combined
A 5.63 g sample of solid gold is heated from 21.0 ºC to 32.0 ºC. How much energy (in J and cal) is required?
Final answer:
The energy required to heat a 5.63 g sample of solid gold from 21.0 °C to 32.0 °C is approximately 8.0239 J or 1.9174 cal, using the specific heat capacity of gold (0.129 J/g°C).
Explanation:
To calculate the energy required to heat the sample of solid gold, we can use the formula: q = mcΔT, where q is the heat energy in joules (J), m is the mass of the substance in grams (g), c is the specific heat capacity (J/g°C), and ΔT is the change in temperature in degrees Celsius (°C).
The mass m of solid gold is 5.63 g, and the specific heat capacity c of gold is given as 0.129 J/g°C. The change in temperature ΔT is (32.0 °C - 21.0 °C) = 11.0 °C.
Therefore, the energy required in joules is:
q = (5.63 g) × (0.129 J/g°C) × (11.0 °C) = 8.0239 J.
To convert joules to calories, we use the conversion factor: 1 cal = 4.184 J. Therefore,
q in calories is: q = 8.0239 J × (1 cal / 4.184 J) = 1.9174 cal.
The energy required to heat the sample of gold from 21.0 °C to 32.0 °C is approximately 8.0239 J or 1.9174 cal.
Which of the following can explain the daily change in sea level observed along a coast?
A.The gravitational pull of the moon on the water near the coast
B.The speed of the ocean's conveyor belt near the coast
C.Earthquakes and volcanoes near the coast
D.The concentration of salt in the water near the coast
Answer:
The gravitational pull of the moon on the water near the coast (option A) can explain the daily change in sea level observed along a coast.
Explanation:
The tides are rising and falling from sea level that occur several times a day. These periodic changes in the level of the sea are produced by the gravitational forces of attraction of the Sun and the Moon with respect to the Earth. But the force of attraction of the Moon is greater than that of the Sun, due to the proximity of the satellite.
High tide or high tide is the time when the sea reaches its maximum height. Low tide or low tide is the time when the sea reaches its minimum height.
The tide is noticed on the beaches because the coastline can go forward or backward many meters.
Finally, the gravitational pull of the moon on the water near the coast (option A) can explain the daily change in sea level observed along a coast.
Calculate the entropy change for a process in which 3.00 moles of liquid water at 08c is mixed with 1.00 mole of water at 100.8c in a perfectly insulated container. (assume that the molar heat capacity of water is constant at 75.3 j k21 mol21.)
Answer:
The entropy change for combining the two temperatures of water is 2.9 J/K.
Hope I helped!!! :)
Given the reaction below, which is the oxidized substance? Mg + Cl2 mc005-1.jpg Mg2+ + 2Clmc005-2.jpg 2CI- CI2 Mg Mg2+
The given chemical reaction is:
Mg + Cl₂ → Mg²⁺ + 2Cl⁻
The reaction can be broken down into two half-reactions as follows:
Mg → Mg²⁺ + 2e⁻ ------(1)
Cl₂ + 2e⁻ → 2Cl⁻ ------(2)
Reaction (1) is an oxidation reaction as it involves loss of electrons.
Reaction (2) is reduction reaction as it involves gain of electrons.
The oxidation state of Mg changes from 0 (Mg) to +2 (Mg2+). Hence, Mg is the oxidized substance
Answer:
Mg
Explanation:
Edge
At equilibrium, 0.170 mol of o2 is present. calculate kc.
To calculate the equilibrium constant (Kc) for a reaction, detailed information about the reaction and the concentrations of all species at equilibrium is essential, which is not fully provided in the question.
Explanation:The question at hand requires calculating the value of the equilibrium constant (Kc) for a given chemical reaction. However, from the information provided, it looks like there might be a mix-up or missing data. For calculating Kc, information about the reaction itself and the concentrations of all reactants and products at equilibrium is essential. Without knowing the specific reaction or having the concentrations of other species besides O2, it's impossible to directly calculate Kc. In a typical calculation, if the reaction were known, and assuming O2 participates in the reaction, its concentration along with those of other species involved would be used in the formula for Kc, which usually follows the form: Kc = [Products]coefficients / [Reactants]coefficients. Precision in these values is crucial for determining the reaction's dynamic equilibrium accurately.
If a laboratory analysis of the mineral aegirine yields 10.0% na, 24.2% fe, 24.3% si, and 41.5% o, what is the empirical formula of the compound?
To make it easier, assume that we have a total of 100 g of aegirine. Hence, we have 10g of Na, 24.2g of Fe, 24.3g of Si and 41.5g of O. Know we will convert each of these masses to moles by using the atomic masses of Na, Fe, Si, and O:
[tex] \frac{10g Na}{23g/mole} = 0.43 mole Na[/tex]
[tex]( \frac{24.2g Fe}{55.9g/mole} ) = 0.43 mole Fe[/tex]
[tex] ( \frac{24.3g Si}{28.1g/mole} ) = 0.86 mole Si[/tex]
[tex] ( \frac{41.5g O}{16g/mole} ) = 2.59 mole O[/tex]
Now, we will divide all the mole numbers by the smallest among them and get the number of atoms in the mineral:
Na = 0.43/0.43 = 1
Fe = 0.43/0.43 = 1
Si = 0.86/0.43 = 2
O = 2.59/0.43 = 6
So, the empirical formula of the compound NaFeSi2O6
HIO3+FeI2+HCl=FeCl3+ICl+H2O
What properties of the wave define why it is found within this area of the spectrum for visible light
Visible light waves have specific properties, including wavelength, that allow them to be detected by the human eye and reach Earth's surface effectively.
Explanation:Visible light consists of electromagnetic waves that behave like other waves. One important property of light waves is the wavelength, which is the distance between one peak of a wave and the next peak. In the case of visible light, the wavelengths range from about 400 to 700 nanometers (nm). This range of wavelengths is found within the visible light spectrum because these are the waves that human vision can perceive. Human eyes have evolved to see these waves most effectively, and visible light also readily reaches Earth's surface, penetrating the atmosphere effectively.
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Brad and matt are working in the lab.they noticed that when they mixed two dilute solutions together,the reaction between them happened very slowly. Which of matt's suggestion would best help to increase the rate of this reaction?
Write a balanced chemical equation for the reaction. na2co3 and agno3
The balanced chemical reaction between [tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}[/tex] and [tex]{\text{AgN}}{{\text{O}}_3}[/tex] is
[tex]\boxed{{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( {aq} \right) + 2{\text{AgN}}{{\text{O}}_3}\left( {aq} \right) \to 2{\text{NaN}}{{\text{O}}_3}\left( {aq} \right) + {\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( s\right)}[/tex]
Further Explanation:
The chemical reaction that contains an equal number of atoms of the different elements in the reactant as well as in the product side is known as a balanced chemical reaction. The chemical equation is required to be balanced to follow the Law of the conservation of mass.
The steps to balance a chemical reaction are as follows:
Step 1: Complete the reaction and write the unbalanced symbol equation.
In this reaction, [tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}[/tex] reacts with [tex]{\text{AgN}}{{\text{O}}_3}[/tex] to form [tex]{\text{NaN}}{{\text{O}}_{\text{3}}}[/tex] and [tex]{\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}[/tex]. The unbalanced chemical equation is as follows:
[tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( {aq} \right) + {\text{AgN}}{{\text{O}}_3}\left( {aq} \right) \to {\text{NaN}}{{\text{O}}_3}\left( {aq} \right) + {\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left(s\right)[/tex]
Step 2: Then we write the number of atoms of all the different elements that are present in a chemical reaction in the reactant side and product side separately.
• On reactant side,
Number of sodium atoms is 2.
Number of carbon atoms is 1.
Number of oxygen atom is 6.
Number of silver atom is 1.
Number of nitrogen atom is 1.
• On product side,
Number of sodium atom is 1.
Number of carbon atoms is 1.
Number of oxygen atom is 6.
Number of silver atoms is 2.
Number of nitrogen atom is 1.
Step 3: Initially, we try to balance the number of other atoms of elements except for carbon, oxygen, and hydrogen by multiplying with some number on any side. But nitrogen atoms on both sides of the equation are already equal. To balance the number of sodium and silver atoms, multiply [tex]{\text{AgN}}{{\text{O}}_{\text{3}}}[/tex] and [tex]{\text{NaN}}{{\text{O}}_{\text{3}}}[/tex] by 2. So the equation is,
[tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( {aq} \right) + \boxed2{\text{AgN}}{{\text{O}}_3}\left( {aq} \right) \to \boxed2{\text{NaN}}{{\text{O}}_3}\left( {aq} \right) + {\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left(s\right)[/tex]
Step 4: After this, we balance the number of atoms of carbon and then hydrogen atom followed by oxygen atoms. But these are already balanced. Now the reaction is,
[tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( {aq} \right) + 2{\text{AgN}}{{\text{O}}_3}\left( {aq} \right) \to 2{\text{NaN}}{{\text{O}}_3}\left( {aq} \right) + {\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left(s\right)[/tex]
Step 5: So the balanced chemical equation is given as follows:
[tex]{\text{N}}{{\text{a}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left( {aq} \right) + 2{\text{AgN}}{{\text{O}}_3}\left( {aq} \right) \to 2{\text{NaN}}{{\text{O}}_3}\left( {aq} \right) + {\text{A}}{{\text{g}}_{\text{2}}}{\text{C}}{{\text{O}}_{\text{3}}}\left(s\right)[/tex]
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Answer details:
Grade: High School
Subject: Chemistry
Chapter: Chemical reaction and equation
Keywords: balanced chemical reaction, reactant side, product side, AgNO3, NaNO3, Ag2CO3, Na2CO3, nitrogen atom, sodium atoms, oxygen atoms, carbon atoms, silver atoms.
Calculate the hydrogen-ion concentration [H+] for the aqueous solution in which [OH–] is 1 x 10–11 mol/L. Is this solution acididc, basic, or neutral? Show your work.
Please help thanks so much! :)
we have been given the [OH⁻] therefore we can first find the pOH value
pOH scale is used to determine the basicity of a solution
pOH = - log [OH⁻]
pOH = - log (1 x 10⁻¹¹ M)
pOH = 11
after knowing the pOH we can calculate pH using following equation
pH + pOH = 14
since pOH = 11
pH = 14 - 11
pH = 3
pH scale is used to determine how acidic a solution is
once pH is known we can can calculate Hydrogen ion concentration
pH = - log [H⁺]
[H⁺] = antilog (-pH)
[H⁺] = antilog(-3)
[H⁺] = 1 x 10⁻³ M
if pH is less than 7 - solution is acidic
pH = 7 the solution is neutral
pH more than 7 - solution is basic
pH of solution is 3 which is less than 7
therefore solution is acidic
and hydrogen ion concentration is 1 x 10⁻³ M
Evaporation occurs when the molecules at the surface of a liquid gain enough _______ to overcome the _______ of other molecules in the liquid phase.
Final answer:
Evaporation happens when surface liquid molecules gain enough kinetic energy to break free from intermolecular forces, turning into gas and creating vapor pressure.
Explanation:
Evaporation occurs when the molecules at the surface of a liquid gain enough kinetic energy to overcome the intermolecular forces of other molecules in the liquid phase. This physical process, known as vaporization or evaporation, involves molecules absorbing enough energy to enter the gas or vapor phase, creating what is called vapor pressure. The escape of molecules from the liquid phase to the gas phase is dependent on the molecules having a kinetic energy greater than a certain threshold. This energy helps them to overcome the attractive forces that hold them in the liquid. As temperature increases, the average kinetic energy of the molecules increases as well, leading to more molecules having the energy to vaporize.
On a practical level, we experience the effects of evaporative cooling in everyday life. For example, on a hot day, the water molecules in perspiration absorb body heat and evaporate from the surface of your skin, leaving behind a cooling sensation.
Which of these can be used to distinguish a mixture from a compound?
number of grams in four moles of BaCO3
To protect itself from herbivores, plants ______
A.secrete toxins
B. have thorns
C. both secrete toxins and have thorns
D. Cannot do anything because they cannot protect themseleves
How does the chemical formula for the nitrite ion differ from the chemical formula for the nitrate ion?
Answer:
nitrite ion is NO2- and nitrate ion is NO3-
Explanation:
The nitrite ion has two oxygen atoms and one nitrogen atom while nitrate ion has three oxygen atoms and one nitrogen atom. They are both univalent negative anions that form compounds with metallic cations as shown below;
Na+ + NO3- ⇒ NaNO3 (sodium nitrate)
Na+ + NO2- ⇒ NaNO2 (sodium nitrite)
Ca2+ + NO3- ⇒ Ca(NO3)2 (calcium nitrate)
Ca2+ + NO2- ⇒ Ca(NO2)2 (calcium nitrite)
You can deduce from the above ionic equations that nitrate ion is NO3- while nitrite ion is NO2-.
Why is the adhesive property of the pvc plastic important? 1 pt?
Which atom attracts electrons most strongly when bonded?
Answer:
F
Explanation:
edg
Plz help! Will give Brainliest! Protons, neutrons,electrons determine the properties of an atom. A)Describe the mass, charge and location and electrons in a atom. B)What is the role of each of these particles in an atom.
Protons and neutrons are held together rather closely in the center of the atom. Together they make up the nucleus, which accounts for nearly all of the mass of the atom.
Electrons move rapidly around the nucleus and constitute almost the entire volume of the atom. Although quantum mechanics are necessary to explain the motion of an electron about the nucleus, we can say that the distribution of electrons about an atom is such that the atom has a spherical shape.
"calcium carbonate is most likely to dissolve (and therefore not be deposited) in water with which characteristics?"
The chemical equation shows how ammonia reacts with sulfuric acid to produce ammonium sulfate. 2NH3(aq) + H2SO4(aq) (NH4)2SO4(aq) How many grams of ammonium sulfate can be produced if 60.0 mol of sulfuric acid react with an excess of ammonia? 1,020 g 3,970 g 5,890 g 7,930 g
Ans: D) 7930 g
Given:
Moles of H2SO4 = 60.0 mol
NH3 in excess
To determine:
The amount in grams of (NH4)2SO4 produced
Explanation:
The chemical reaction is as follows:
2NH3 + H2SO4 → (NH4)2SO4
Since, NH3 is in excess, H2SO4 will be the limiting reagent and will influence the amount of product formed
Based on the reaction stoichiometry:
1 mole of H2SO4 forms 1 mole of (NH4)2SO4
Therefore, 60.0 mol of H2SO4 will produce 60.0 mol of (NH4)2SO4
Now:
[tex]moles = \frac{mass}{molar mass} \\[/tex]
molar mass (NH4)2SO4 = 132.14 g/mol
[tex]mass of (NH4)2SO4 = moles * molar mass\\\\= 60.0 mol * 132.14 g/mol = 7928.4 g[/tex]
Understanding how much of a product is produced in a reaction is referred to as ________ understanding the reaction?
Electromotive force is usually provided by a _____ or _____ in an electric circuit.
Which substance cannot be broken down by a chemical change?
A) butanal
B) propene
C) gold
D) water
The substance that cannot be broken down by chemical change is [tex]\boxed{{\text{C) gold}}}[/tex].
Further Explanation:
Substance is the pure form of matter while a combination of atoms or molecules is termed as a mixture.
Types of substances:
1. Element
The simplest form of substance that cannot be further decomposed by any chemical means is called an element. Carbon, sulfur, and cobalt are some of the examples of elements.
2. Compound
When two or more different elements are held together by chemical methods, compounds are formed. These can further be decomposed into their corresponding constituents. The properties of compounds are very different from those of their constituent elements. NaCl, [tex]{\text{C}}{{\text{H}}_{\text{4}}}[/tex] and [tex]{{\text{H}}_{\text{2}}}{\text{O}}[/tex] are examples of compounds.
A) Butanal [tex]\left( {{{\text{C}}_4}{{\text{H}}_8}{\text{O}}} \right)[/tex] is made up of four carbon atoms, eight hydrogen atoms, and an oxygen atom so it is a compound. Therefore it can be broken down by chemical change.
B) Propene [tex]\left( {{{\text{C}}_{\text{3}}}{{\text{H}}_{\text{6}}}} \right)[/tex] is made up of three carbon atoms and six hydrogen atoms so it is a compound. Therefore it can be broken down by chemical change.
C) Gold [tex]\left( {{\text{Au}}} \right)[/tex] is an element so it is present in its simplest form. Therefore it cannot be broken down by chemical change.
D) Water [tex]\left( {{{\text{H}}_{\text{2}}}{\text{O}}} \right)[/tex] is made up of one oxygen and two hydrogen atoms so it is a compound. Therefore it can be broken down by chemical change.
Learn more:
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Grade: High School
Subject: Chemistry
Chapter: Elements, compounds, and mixtures
Keywords: substance, butanal, propene, gold, water, element, compound, chemical change, decomposed, simplest form, NaCl, CH4, carbon, sulfur, cobalt.
Gold, being an element, cannot be broken down further by a chemical change whereas butanal, propene, and water, being compounds, can be.
Explanation:The substance which cannot be broken down by a chemical change is gold. This is because gold is an element. Elements are pure substances that are made from a single type of atom and cannot be broken down further by chemical methods. On the other hand, butanal, propene, and water are all compounds, which are substances formed when two or more chemical elements are chemically bonded together. Compounds can be decomposed into simpler substances, or their constituent elements, by chemical change.
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How does the arrangement of the particles in a gas compare to that of a solid? (c?)
A. The arrangement of particles in a gas is the same as that of a solid.
B. The particles in a gas are closer together than the particles in a solid.
C. The particles in a gas are farther apart than the particles in a solid.
D. The arrangement of particles in a gas will depend on the mass of the gas.
The arrangement of particles in a gas differs from that in a solid in that they are farther apart, allowing gases to fill their containers' volume and shape.
Explanation:How does the arrangement of the particles in a gas compare to that of a solid? The correct answer is that the particles in a gas are farther apart than the particles in a solid (Option C). This difference in particle arrangement is crucial for understanding the distinct physical properties of solids, liquids, and gases.
Solids and liquids are considered condensed phases because their particles are very close together, which leads to them having definite volumes. Conversely, the particles in a gas phase are much more spread out, allowing them to move freely at high speeds. This significant separation between particles in a gas means that a gas can expand to fill the shape and volume of its container, differentiating it notably from solids and liquids.
gas-to-liquid synfuel production can produce diesel, naptha and paraffin. The formation of these products usually involves _____. the Fischer-Tropsch Process the removal of carbon atoms from the fuel adding highly acidic substances such as hydrochloric acid the production of radioactive waste that must be stored in protective barrels
When 190 grams of titanium tetrachloride react with an excess of water, as shown in the unbalanced chemical equation below, how many moles of hydrochloric acid will be produced? (1 point)?
For the diprotic weak acid h2a, ka1 = 2.2 × 10-6 m and ka2 = 8.2 × 10-9 m. what is the ph of a 0.0500 m soluti? for the diprotic weak acid h2a, ka1 = 2.2 × 10-6 m and ka2 = 8.2 × 10-9 m. what is the ph of a 0.0500 m solution of h2a? what are the equilibrium concentrations of h2a and a2– in this solution?
At equilibrium, the pH of the solution is 3.48; [H2A] = 0.0496 and [A2-] = 8.2 × 10^-9 M
First ionizationH2A <----> H+ + HA- ;Ka1 = 2.2 × 10^-6
Ka1 = 2.2x10^-6 = [H+][HA-]/[H2A]
At equilibrium:
[H+] = X[HA-] = X[H2A] = 0.05 - XSubstituting in the equation of Ka1
2.2 × 10^-6 = X^2/0.050 - X
Assuming X is small relative to 0.050, 0.050 - X simplifies to 0.050X^2 = 1.1 × 10^-7
X = 3.31 × 10^-4
Since Ka1 <<< Ka2 and [H+] = X
[H+] = 3.31 × 10^-4
pH = - log 3.31 × 10^-4
pH = 3.48
Equilibrium concentration of H2A[H2A] = 0.05 - 3.31 × 10^-4
[H2A] = 0.0496
Second ionization:HA- <------> H+ + A- Ka2 = 8.2 × 10^-9
Ka2 = 8.2 × 10^-9 = [H+][A2-]/[HA-]
HA- ------> H+ + A2-
3.31 × 10^-4 3.31 × 10^-4 0 Initial
-y +y +y Change
{3.31 ×10^-4 -y} {3.31 x10^-4+y} {+y} Equilibrium
Assuming y is very small:
{3.31 ×10^-4 - y} simplifies to 3.31 ×10^-4 {3.31 ×10^-4 + y} simplifies to 3.31 ×10^-4Substituting in the equation of Ka2
8.2 × 10^-9 = (3.31x10^-4) × y /3.31 ×10^-4
y = 8.2 × 10^-9
Equilibrium concentration of A2-Since [A2-] = y
[A2-] = 8.2 × 10^-9 M
Therefore, at equilibrium, the pH of the solution is 3.48; [H2A] = 0.0496 and [A2-] = 8.2 × 10^-9 M
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