The element with a molar mass of 30.974 g/mol is phosphorus. Molar mass corresponds to the mass of one mole of a substance, which contains Avogadro's number of particles.
Explanation:The element with a molar mass of 30.974 g/mol is phosphorus (P). The concept of molar mass is significant in chemistry, as it relates the mass of the substance to the number of molecules or atoms. One mole of a substance corresponds to 6.022 × 10²³ particles (Avogadro's number), whether they're molecules, formula units, or atoms. The molar mass in grams per mole (g/mol) is numerically equal to the average atomic mass of the element.
In this case, a quick examination of the periodic table will reveal that phosphorus has an atomic mass very close to 30.974 amu, which corresponds to its molar mass in grams. Hence, 1 mole of phosphorus atoms has a mass of 30.974 g and contains 6.022 × 10²³ atoms of phosphorus.
Please help with 2 chem questions thank you!
What mass in grams of a molecular substance (molar mass = 50.0 g/mol) must be added to 500 g of water to produce a solution that boils at 101.56°c?
The mass in grams of the molecular substance to be added is 76.25 grams.
Given the following data:
Molar mass = 50.0 g/molMass of water = 500 grams to kg = 0.5 kgBoiling temperature of solution = 101.56°CWe know that the temperature at which water boil is 100°C
Molal boiling point constant, Kb (water) = 0.512 °C/m
To find the mass in grams of the molecular substance to be added:
Mathematically, the boiling point elevation of a liquid is given by the formula:
[tex]\Delta T = K_b m[/tex]
Where:
[tex]\Delta T[/tex] is the change in temperature.Kb is the molal boiling point constant.m is the molality of solution.Substituting the parameters into the formula, we have;
[tex]101.56 - 100 = 0.512 m\\\\1.56 = 0.512 m\\\\m = \frac{1.56}{0.512}[/tex]
m = 3.05 mol/kg
Next, we would determine the number of moles of the molecular substance:
[tex]Number\;of\;moles = m \times mass\;of\;water\\\\Number\;of\;moles = 3.05 \times 0.5[/tex]
Number of moles = 1.525 moles
Finally, we solve for the mass of the molecular substance:
[tex]Mass = number\;of\;moles \times molar mass\\\\Mass = 1.525 \times 50[/tex]
Mass = 76.25 grams
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The small intestine receives food from the _____.
rectum
stomach
large intestine
liver
Answer: stomach
Explanation:
One symptom of carbon monoxide poisoning is the development of Mees lines on the fingernails and toenails.
true or false
Answer:
False is your answer
Sedimentary rocks are the only rocks that can potentially contain ___________(fossils/minerals).
Answer:
fossils
Explanation:
edge
Which is not possible based on the characteristics of fluids? allowing 5 liters of compressed air to expand to a volume of 100 liters filling a balloon using helium gas from a pressurized tank compressing 2 liters of water into a 1-liter volume compressing 10 liters of oxygen gas into a 1-liter volume?
Answer:
compressing 2 liters of water into a 1-liter volume
Explanation:
How many molecules of SO2 are in 2.45 g of SO2? (molar mass=64.06 g/mol). (Hint: you need to use your entire stoichiometry flow chart!)
0.0382 molecules
9.45 x10^25 molecules
2.30 x 10^22 molecules
6.35 x 10^-26 molecules
find the density of an object that has a mass of 66g and a 10 cm3. HELP ASAP
Answer: [tex]6.6\ g/cm^3[/tex]
Explanation:
The formula to calculate the density is given by :-
[tex]\text{Density}=\dfrac{\text{Mass}}{\text{Volume}}[/tex]
We are given that the volume of an object is [tex]10\ cm^3[/tex]
Mass of object = 66g
Now, the density of object is given by :-
[tex]\text{Density}=\dfrac{66}{10}\\\\\Rightarrow\ \text{Density}=6.6\ g/cm^3[/tex]
Hence, the density of object = [tex]6.6\ g/cm^3[/tex]
Write a balanced chemical equation for the standard formation reaction of solid mercury(ii) oxide .
The standard formation reaction for solid mercury (II) oxide is Hg (s) + 1/2 O2 (g) → HgO (s), involving the transformation of elemental mercury and oxygen into the compound.
Explanation:The standard formation reaction refers to the formation of 1 mole of a compound directly from its elements in their standard states. For mercury (II) oxide, the elements in their standard states are mercury (Hg) and oxygen (O2.
The standard formation reaction for solid mercury (II) oxide is:
Hg (s) + 1/2 O2 (g) → HgO (s)
Note that Hg is in its solid elemental state, while O2 is in its gaseous elemental state, which are their respective standard states at room temperature and one atmospheric pressure.
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The balanced chemical equation for the standard formation reaction of solid mercury(II) oxide is: [tex]2Hg(l) + 1O_2(g) \rightarrow 2HgO(s)[/tex] . This involves mercury in its liquid state and oxygen in its gaseous state forming one mole of HgO.
To answer the question, "Write a balanced chemical equation for the standard formation reaction of solid mercury(II) oxide," we need to understand and apply the concept of standard formation reactions.
A standard formation reaction describes the formation of one mole of a compound from its elements in their standard states. For mercury(II) oxide (HgO), the elements mercury (Hg) and oxygen ([tex]O_2[/tex]) in their standard states are needed.
The balanced chemical equation for the formation of solid mercury(II) oxide is:
[tex]2Hg(l) + 1O_2(g) \rightarrow 2HgO(s)[/tex]
Here are the steps to write this equation:
Identify the reactants in their standard states: mercury (liquid Hg) and oxygen (gas [tex]O_2[/tex]).Write a chemical equation for the formation of one mole of HgO.Balance the equation. Since HgO contains one mercury and one oxygen atom, we need one mole of Hg and one-half mole (i.e., one atom) of [tex]O_2[/tex].This equation represents the standard formation of mercury(II) oxide.
Which of these resources are renewable? Check all that apply.
wind, forests, and tides are all correct i got checks for all on the assignment
A student is told that both energy and mass must be conserved in every chemical reaction. She measures the mass of Hydrochloric acid and a zinc strip separately. She then places the zinc strip into the acid and bubbles form as the zinc looks like it disappears. The combined mass afterward is less than the original. Which of these can explain this result?
Conservative mass states that the sum of the mass of the products produced must be equal to that of the reactants. The combined mass is less as the gas was evolved.
What is the conservation of mass?The law of mass conservation is about the conservation of the energy and the mass of the chemical involved in the reaction. It states that the combined mass of the products of the reaction is always conserved to that of the chemical reactants.
The mass of the reaction was reduced compared to the mass of the reactants as during the acidification of the zinc strip hydrogen gas bubbles were released that had some of the mass.
Therefore, the formation of the gas depicts that the gas had some of the mass that escaped in the atmosphere.
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Final answer:
The conservation of mass principle dictates that the total mass of the products equals the total mass of the reactants in a chemical reaction. The observed mass loss in the student's experiment is due to the unmeasured hydrogen gas produced, not a violation of mass conservation. Balancing chemical equations reflects this law of conservation.
Explanation:
The experiment involving the reaction between zinc and hydrochloric acid showcases the law of conservation of mass. Despite the observation that the combined mass appears to be less after the reaction, it is likely due to the gas produced (hydrogen gas in this case) escaping the system, which was not taken into account when measuring the mass afterward. According to the law of conservation of mass, the total mass of the products in a chemical reaction must equal the total mass of the reactants. The missing mass corresponds to the hydrogen gas that was not captured or measured after the reaction.
Furthermore, although there is a transfer of energy and the resulting substances may have different physical and chemical properties, this does not affect the mass conservation principle. For instance, when magnesium metal reacts with oxygen to form magnesium oxide in a sealed vessel, the total mass remains unchanged before and after the reaction, demonstrating the conservation of mass.
It is crucial in chemistry to ensure that chemical equations are balanced, as this reflects the conservation of matter, where the number of atoms of each element in the reactants equals the number of atoms of each element in the products.
The diagram shows changes of state between solid, liquid, and gas. The atoms of a substance gain energy during a change of state. Before the change, the atoms are close together and cannot slide past one another. After the change, the substance can fill its container.
Which arrow represents the change of state described above?
L
M
N
O
Answer is: L.
The process by which a solid changes directly to a gas without first becoming a liquid is called sublimation.
Sublimation is an endothermic process.
For example dry ice (carbon(IV) oxide in solid state) is used because of sublimation in nightclubs, fog machines, at theaters, haunted house attractions .
1) Gas: does not have a definite shape or volume and changes to liquid on cooling.
2) Liquid: has definite volume but not shape and changes to solid on cooling.
3) Solid: has definite shape and volume and changes to liquid on heating.
The transition metals are located in what block of the periodic table
S block
P block
D block
F block
Transition metals are positioned in the D block of the periodic table. They possess unique characteristics such as higher conductivity and flexibility in oxidation states, making them of great utility.
Explanation:The transition metals are found in the D block of the periodic table. These elements, which include familiar metals like iron, copper, and silver, have unique chemical and physical properties that make them particularly useful. For instance, they're often good conductors of heat and electricity, and many of them exhibit a range of oxidation states in their compounds. Besides, they are also noted for their ability to form complex compounds.
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At 22 °c an excess amount of a generic metal hydroxide m(oh)2 is mixed with pure water. the resulting equilibrium solution has a ph of 10.30. what is the ksp of the salt at 22 °c?
1.985 x 10⁻¹²
Further explanationGiven:
At 22°C an excess amount of a generic metal hydroxide M(OH)₂ is mixed with pure water. The resulting equilibrium solution has a pH of 10.30.Question:
What is the Ksp of the salt at 22°C?
The Process:
Step-1
Because the pH is above 7, we convert it to pOH.
[tex]\boxed{ \ pH + pOH = 14 \ } \rightarrow \boxed{ \ pOH = 14 - pH \ }[/tex]
pOH = 14 - 10.30
Hence, the pOH value is 3.70.
Step-2
We use the pOH to get the [tex][OH^-].[/tex]
[tex]\boxed{ \ pOH = -log[OH^-] \ } \rightarrow \boxed{ \ [OH^-] = 10^{-pOH} \ }[/tex]
[tex]\boxed{ \ [OH^-] = 10^{-3.70} \ }[/tex]
Therefore, [tex]\boxed{ \ [OH^-] = 1.995 \times 10^{-4} \ molar \ }[/tex]
Step-3
Let us write the chemical equation in equilibrium of ions.:
[tex]\boxed{ \ Mg(OH)_2 \rightleftharpoons Mg^{2+} + 2OH^- \ }[/tex]
Notice that based on comparison of the coefficients, then [tex]\boxed{ \ [Mg^{2+}] = \frac{1}{2}[OH^-] \ }[/tex]
[tex]\boxed{ \ [OH^-] = 1.995 \times 10^{-4} \ M \ }[/tex][tex]\boxed{ \ [Mg^{2+}] = \frac{1}{2} \times 1.995 \times 10^{-4} = 9.975 \times 10^{-5} \ M \ }[/tex]Step-4
The Ksp expression:
[tex]\boxed{ \ K_{sp} = [Mg^{2+}][OH^-]^2 \ }[/tex]
Let's calculate the Ksp value.
[tex]\boxed{ \ K_{sp} = [1.995 \times 10^{-4}][9.975 \times 10^{-5}]^2 \ }[/tex]
Thus, the Ksp is [tex]\boxed{ \ 1.985 \times 10^{-12} \ }[/tex]
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A hot air balloon is filled with 1.35 × 106 l of an ideal gas on a cool morning (11 °c). the air is heated to 127 °c. what is the volume of the air in the balloon after it is heated? assume that none of the gas escapes from the balloon.
Consider two solutions: solution x has a ph of 4; solution y has a ph of 7. from this information, we can reasonably conclude that _____. consider two solutions: solution x has a ph of 4; solution y has a ph of 7. from this information, we can reasonably conclude that _____. the concentration of hydrogen ions in solution y is 1000 times as great as the concentration of hydrogen ions in solution x the concentration of hydrogen ions in solution x is 1000 times as great as the concentration of hydrogen ions in solution y solution y has no free hydrogen ions (h+) the concentration of hydrogen ions in solution x is 3 times as great as the concentration of hydrogen ions in solution y
The concentration of hydrogen ions in solution x is 3 times as great as the concentration of hydrogen ions in solution y if solution x has a ph of 4; solution y has a ph of 7.
In a solution , the pH is a measure of the hydrogen ions in the solution . The lower the pH, the higher the amount of hydrogen ions. The number of hydroxide ions in the solution decreases as the number of hydrogen ions increases. X is 1,000 times as acidic as Y. Because each step in the pH scale represents a change in concentration by a factor of 10. Since Y has a pH of 7 .0, and X has a pH of 4 .0, the concentration would change by 100 times 10. That is 7-4=3. And thus Thrice the factor '10' gives 10×10×10=1000.
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The concentration of hydrogen ions in Solution X with a pH of 4 is 1000 times as great as the concentration in Solution Y with a pH of 7, due to the logarithmic nature of the pH scale.
Explanation:Given that Solution X has a pH of 4 and Solution Y has a pH of 7, it's important to understand that the pH scale is logarithmic, meaning each whole number change represents a tenfold change in hydrogen ion (H+) concentration. Therefore, the concentration of hydrogen ions in Solution X is not 3 times, but 1000 times as great as the concentration of hydrogen ions in Solution Y. Since the pH scale shows that a lower pH means a higher concentration of H+ ions, a pH of 7 is neutral, a pH below 7 is acidic, and above 7 is basic. For every unit decrease in pH, the concentration of hydrogen ions increases by a factor of 10. Thus, a solution of pH 4 has 10³ (or 1000) times more H+ ions than a solution with a pH of 7.
PLEASE HELP ME!
Explain why, no matter how much we dilute an acid with water, the pH never rises above 7.
As water has a neutral pH of 7, diluting an acid water does not raise it's pH above 7.
What is an acid?Acids are defined as substances which on dissociation yield H+ ions , and these substances are sour in taste. Compounds such as HCl, H₂SO₄ and HNO₃ are acids as they yield H+ ions on dissociation.
According to the number of H+ ions which are generated on dissociation acids are classified as mono-protic , di-protic ,tri-protic and polyprotic acids depending on the number of protons which are liberated on dissociation.
Acids are widely used in industries for production of fertilizers, detergents batteries and dyes.They are used in chemical industries for production of chemical compounds like salts which are produced by neutralization reactions.
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I am confused. Can yall help me answer this question? Also if you do, please show your work.
KOH + HCl →
If 30mL of 0.5M KOH is needed to neutralize 2M HCl, what was the volume of the acid?
One brand of laundry bleach is an aqueous solution containing 4.00% sodium hypochlorite (naocl) by mass. you may want to reference (pages 586 - 592) section 13.5 while completing this problem. part a what is the molarity of this solution? (assume a density of 1.02 g/ml.)
Answer: B. 0.599
Explanation: If you are using usatestprep 8^)
Which of the following activities will contribute most to changing climate and global warming? Paddling a canoe, driving a car, skiing down a mountain, riding a bike
Answer: driving a car
Driving a car will contribute most to changing climate and global warming due to the emission of particles and gases generated from incomplete combustion of fuel in the vehicle. These gases includes carbon dioxide, carbon monoxide, hydrogen sulfides these gases can contribute to the increase in the global temperatures. These can contribute to drastic fluctuations of the climates such as dry and hot climatic conditions.
Which of these factors makes nuclear energy unsustainable?
A. Nuclear power plants last the longest.
B. Nuclear energy requires wind turbines.
C. Nuclear power plants cost the most to build.
D. Nuclear energy relies on uranium.
Answer:
D- Nuclear energy relies on uranium
Explanation:
Uranium is scarce and its availability decides the sustainability of nuclear energy.
Nuclear energy is considered unsustainable due to its reliance on uranium, a finite resource. Even with large reserves, uranium is a non-renewable resource, and the challenges in managing long-lived nuclear waste add to its unsustainability.
The factor that makes nuclear energy unsustainable is D. Nuclear energy relies on uranium. Nuclear power is considered a non-renewable resource because the supply of uranium, the fuel used in nuclear power plants, is finite. Current estimates suggest that economically feasible supplies of uranium could last around 70 years at the present rates of use, though this could be extended with new mining and processing technologies. Moreover, the extraction and refinement of uranium ore are energy-intensive processes, and the long-term management of nuclear waste, due to its hazardous nature, presents yet another sustainability challenge.
1. Which molecule is a dipole?
A. Methane
B. Nitrogen Gas
C. Carbon tetrachloride
D. Nitrogen dioxide
2. Which statement is true regarding a hydrogen bond?
A. It is weaker than dipole interaction forces
B. It is weaker than London dispersion forces
C. It is strong because of the lack of inner electrons shells in a hydrogen atom
D. It is stronger than an ionic bond
Nitrogen dioxide is a dipole due to its unshared pair of electrons and bent shape. Hydrogen bonds, while stronger than London Dispersion forces, are weaker than dipole interaction forces, not due to a lack of inner electron shells in hydrogen, but due to its small size and high electronegativity when attached to certain atoms.
Explanation:The molecule that is a dipole is Nitrogen dioxide (NO2). A dipole is formed when the electron distribution between the atoms in a molecule is uneven, resulting in a molecule with a net electric dipole moment. Nitrogen dioxide has an unshared pair of electrons and the molecule is bent, leading to a resulting dipole moment, unlike Methane, Nitrogen gas, and Carbon tetrachloride which are symmetric and have no net dipole moment.
Regarding hydrogen bonding, the true statement is A. It is weaker than dipole interaction forces. Hydrogen bonds are primarily electrostatic forces of attraction, which are weaker than ionic bonds. However, they are stronger than London Dispersion forces. The strong hydrogen bond is not due to a lack of inner electron shells in a hydrogen atom, but to the small size and high electronegativity of hydrogen attached to small and highly electronegative atoms like Nitrogen, Oxygen, and Fluorine.
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A large weather balloon requires plenty of helium gas in order to ascend into the atmosphere to take measurements. If the balloon has a volume of 100,000 liters, about how many moles of helium gas would be required to fill the balloon to a pressure of 1 atm and a temperature of 27 degrees C?
A. 531 moles
B. 1394 moles
C. 4063 moles
D. 5280 moles
What mass of NaOH is in 3.0e+02 mL of a 5.0 M NaOH solution?
a student reports three trials to measure the density of an unknown metal. The percent error in these trails is given in the table
Match each root with its meaning. (5 points) 1. Grad/gress 2. Ject 3. Meter 4. Junct 5. Loc a. Place b. To throw c. Measure d. To step e. To join
Answer:
what he said
Explanation:
Fresh water in frozen glaciers and ice caps makes up what percentage of the total amount of fresh water on Earth? exactly 33% between 3% and 97% more than 97% about 66%
about 60 % (is correct on grad point)
What two elements comprise most of a nebula? question 5 options: hydrogen and helium hydrogen and nitrogen oxygen and hydrogen carbon and hydrogen helium and lithium?
"what type of covalent bond between amino acid side chains (r groups) functions in maintaining a polypeptide's specific three-dimensional shape?"
The covalent bond that plays a role in maintaining a polypeptide's tertiary structure is the disulfide linkage, formed between cysteine side chains. This bond is essential in stabilizing the three-dimensional shape of the protein, which is crucial for its functionality.
Tertiary Structure of Proteins
The type of covalent bond between amino acid side chains (R groups) that functions in maintaining a polypeptide's specific three-dimensional shape is a disulfide linkage. This bond is the result of interactions between two cysteine amino acids, which contain sulfur in their side chains. When these cysteine side chains come into proximity in the folded protein and the conditions are oxidative, a covalent disulfide bond can form between them. This is a crucial aspect of the tertiary structure of a protein and helps stabilize its three-dimensional conformation. Other interactions, including ionic bonds, hydrophobic interactions, and van der Waals forces, while not covalent, also play significant roles in the protein folding process and the final structure.
It's important to note that the tertiary structure of a protein is critical for its function. If the structure is altered, for instance by denaturation, the protein may lose its functionality. Ultimately, the specific arrangement of amino acids and the interactions among R groups define the unique shape and function of a protein.
Which form of co2 transport accounts for the greatest amount of co2 transported in blood?