This is is the common name for the aqueous cation h3o+, formed when a water molecule combines with the proton from a hydrogen atom.
The partial pressure of carbon dioxide in systemic arterial blood is __________. the partial pressure of carbon dioxide in systemic arterial blood is __________. 100 mm hg 40 mm hg 104 mm hg 45 mm hg
The partial pressure of carbon dioxide (PCO2) in systemic arterial blood is approximately 40 mm Hg.
The partial pressure of a gas in a mixture, like blood, is a measure of the pressure that gas exerts independently, assuming ideal behavior. In the context of blood gases, PCO2 is a crucial parameter reflecting the concentration of dissolved carbon dioxide in the bloodstream.
Normal systemic arterial blood PCO2 levels typically range from 35 to 45 mm Hg. This range is maintained within a very narrow margin as part of the body's acid-base balance, regulated by the respiratory system and the kidneys.
A PCO2 value significantly higher than 45 mm Hg can indicate respiratory acidosis, a condition where the blood becomes too acidic due to excess carbon dioxide. On the other hand, a PCO2 value below 35 mm Hg may indicate respiratory alkalosis, where the blood becomes too alkaline due to insufficient carbon dioxide.
Therefore, a PCO2 of 100 mm Hg, 104 mm Hg, or 45 mm Hg does not represent the typical PCO2 in systemic arterial blood and would suggest an abnormal condition. A PCO2 of 40 mm Hg is within the normal range for systemic arterial blood PCO2.
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What is the mass of 1.50 mol C5H12
The mass of 1.50 mol of C₅H₁₂ is calculated to be 108.09 g using the molar mass of the compound.
Explanation:The molar mass of a compound is the total mass of all the atoms in the molecule. The compound C₅H₁₂ consists of 5 carbon atoms and 12 hydrogen atoms. Given that the atomic mass of carbon (C) is 12.01 g/mol and the atomic mass of hydrogen (H) is 1.01 g/mol, the molar mass of C₅H₁₂can be calculated as: (5 x 12.01 g/mol) + (12 x 1.01 g/mol) = 72.06 g/mol. Therefore, the mass of 1.50 mol C₅H₁₂ would be (1.50 mol x 72.06 g/mol) = 108.09 g.
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The mass of 1.50 mol of C5H12 (pentane) is 108.2247 grams. First, the molar mass of C5H12 is calculated by summing the atomic masses of carbon and hydrogen, then this molar mass is multiplied by the number of moles given (1.50 mol) to find the mass.
Explanation:To calculate the mass of 1.50 mol of C5H12, we need to first determine its molar mass. The molar mass of a compound is the sum of the masses of all the atoms in one mole of that compound. For C5H12, which is pentane, the molar mass can be calculated as follows:
(5 atoms × 12.011 g/mol for Carbon) + (12 atoms × 1.0079 g/mol for Hydrogen)(5 × 12.011) + (12 × 1.0079) = 60.055 + 12.0948 = 72.1498 g/molNow that we have the molar mass, we can find the mass for 1.50 mol:
1.50 mol × 72.1498 g/mol = 108.2247 gramsThis calculation assumes that the molar mass has been rounded to four significant figures to match the precision of 1.50 mol, thus the mass of 1.50 mol C5H12 is 108.2247 grams with four significant figures.
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Using the periodic table determine the atomic mass of Na2C2O4
#1: Which of the following is an exothermic reaction?
A. dissolving ammonium nitrate in water to cool the water
B. condensation
C. melting ice
D. dissolving sugar in water
**my answer; C
is that right? @aaronq :)
Which three temperature readings all mean the same thing? Question options: 273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit 373 Kelvin, 100 degrees Celsius, 273 degrees Fahrenheit 100 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit 273 Kelvin, 100 degrees Celsius, 212 degrees Fahrenheit
273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit
Explanation;Kelvin, degrees Celsius and degrees Fahrenheit, all are units that may be used to measure temperature.
Each unit may be converted to another using the following formulas.
°C = (°F - 32) × 5 / 9 °F = (°C ×1.8) + 32 K = °C + 273.0°C = K - 273.0Which means 0 °C is equivalent to 273 Kelvin, (K = °C + 273.0) and also equivalent to 32 degrees Fahrenheit (°F = (°C ×1.8) + 32 ).
compare and contrast neap tides and spring tides discuss when they occur as well as the alignment of the earth moon sun system
Answer:
The spring tides occur seven days after the spring tide and the spring tides occur twice in the lunar year.
Explanation:
A spring tide is a tide in which there is a greatest difference between a high and low tide is the greatest. A spring tide occurs when the earth, the moon, and the sun are in the straight line. A neap tide, on the other hand, occurs when the sun, moon, and earth make a three triangle kind of a triangle. It occurs when there is a least between the highest and lowest tide.
Neap tides occur twice a month when the sun and moon are at right angles to the earth. Spring tide, on the other hand, occur at new moon or full moon
A liquid with a high surface tension exhibits __________.
strong cohesive forces
weak cohesive forces
strong adhesive forces
weak adhesive forces
Answer: strong cohesive forces
Explanation:
Surface tension is the net downward force acting on the surface of liquids due to the cohesive nature of liquids.
The force of attraction between similar molecules are called as cohesive forces and forces among different molecules are called as adhesive forces.
For example: Water molecules are bonded by strong hydrogen bonding between the hydrogen atom and the electronegative oxygen atom. Thus water molecules present on the surface are strongly attracted by the molecules present below the surface and thus act as a stretched membrane.
The surface acquires a minimum surface are and thus acquire a spherical shape.
Thus the liquids with a high surface tension exhibits strong cohesive forces.
Rounded to the nearest whole number, how many neutrons, on average, are in an atom of osmium? 76 114 190 266
Answer: The number of neutrons in osmium is 114.
Explanation:
Atomic number is defined as the number of protons that are present in an atom. It is represented as 'Z'
Atomic number = Number of protons
Mass number is defined as the sum of number of protons and number of neutrons that are present in an atom. It is represented as 'A'
Mass number = Number of neutrons + Number of protons
We know that:
Atomic number of osmium = 76
Mass number of osmium = 190
Number of neutrons = 190 - 76 = 114
Hence, the number of neutrons in osmium is 114.
Enriched weapons-grade uranium consists of 80% uranium-235 (235.044 amu) and 20% uranium-238 (238.051 amu). what is the average atomic mass of weapons-grade uranium, assuming the percentages are exact?
Final answer:
To find the average atomic mass of weapons-grade uranium, calculate the weighted average based on the percentages of each isotope: 80% of 235.044 amu (uranium-235) and 20% of 238.051 amu (uranium-238), yielding an average atomic mass of 235.6454 amu.
Explanation:
To calculate the average atomic mass of weapons-grade uranium, which consists of 80% uranium-235 and 20% uranium-238, you multiply the mass of each isotope by its relative percentage (expressed as a decimal) and then sum the results. The atomic mass unit (amu) for uranium-235 is 235.044 and for uranium-238 is 238.051.
The average atomic mass can be calculated as follows:
(80% of uranium-235) 80/100 × 235.044 amu = 188.0352 amu
(20% of uranium-238) 20/100 × 238.051 amu = 47.6102 amu
Add these values together: 188.0352 amu + 47.6102 amu = 235.6454 amu
Therefore, the average atomic mass of weapons-grade uranium is 235.6454 amu.
According to Ptolemy's model of the movement of celestial bodies, A. the sun is the center of the universe. B. the earth rotates around the sun. C. planets orbit in circular paths around the earth. D. the earth rotates around the moon.
6.5 moles AlCl3 reacts with 57.0g of NaOH. how many grams of Al(OH)3 will be produced
Jose’ has a circular rug on the floor of his bedroom. If the area of the rug is 16π square feet, what is the diameter of the rug? The diameter of the rug is feet.
How is the reaction quotient used to determine whether a system is at equilibrium? a at equilibrium, the reaction quotient is undefined. b the reaction is at equilibrium when q>keq. c the reaction is at equilibrium when q=keq. d the reaction is at equilibrium when q
A slice of pizza contains 29 g of carbohydrate, 13 g of protein and an unknown amount of fat. if the pizza contains 280 kcal, how many grams of fat are present? report the answer to 2 significant figures.
The grams of fat present is 12 grams.
Based on the given information,
• A slice of pizza contains 13 grams of protein, 29 grams of carbs.
• The total calories present in the pizza is 280 kcal.
Now there is a need to find the grams of fat present in the pizza,
Total calories = 280 kcal
Total calories of carbohydrates = 29 × 4 kcal (1 g of carb contain 4kcal of energy) = 116 kcal.
Total calories of protein = 13 × 4 kcal (1 g of protein contains 4kcal of energy) = 52 kcal.
Calories due to fat = (280 kcal) - (116 kcal + 52 kcal)
= 112 kcal
1 gram of fat contains 9kcal of energy. The amount of fat can be determined as,
Amount of fat = (112/9) g = 12.44 grams or 12 grams of fat.
Thus, the grams of fat present is 12 grams.
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Consider two solutions, solution a and solution
b. [h+] in solution a is 370 times greater than that in solution
b. part a what is the difference in the ph values of the two solutions?
Final answer:
The difference in the pH values of two solutions, where one solution has an H+ concentration 370 times greater than the other, is approximately 2.568 pH units, calculated using a logarithmic scale.
Explanation:
The question asks to calculate the difference in the pH values of two solutions where the concentration of hydrogen ions [H+] in solution A is 370 times greater than that in solution B. The pH scale is logarithmic, which means a tenfold increase in hydrogen ion concentration results in a decrease of 1 unit in pH. Therefore, for each 10-fold difference in concentration, there is a 1 unit difference in pH.
Since the concentration in solution A is 370 times greater, we first need to find how many times 10 fits into 370 to determine the pH difference. We can do this by taking the logarithm (base 10) of 370:
pH difference = log(370) = 2.568
Therefore, the difference in pH between solution A and solution B is approximately 2.568 pH units.
How many moles of CO2 are in 1.0L at 25 degrees C and 95 kPa?
The diprotic acid h2co3 can produce two buffers depending on the ph of the solution. identify the conjugate acid/base pair from carbonic acid that would form the most basic buffer.
If you set up an experiment with two different independent variables, then the results would be_____.
A. inconclusive; you would not know which of the two variables caused the change
B. definitive; the results would be more accurate if you change two variables at a time
C. conclusive; showing a strong correlation between dependent and independent variables
D. somewhat conclusive; you know the change resulted from one of the variables
Answer:
d
Explanation:
The change of state from a gas to a liquid is called _____.
a. deposition
b. sublimation
c. condensation
d. evaporation
The process by which a gas is converted to a liquid is called
solution:
These phase changes can be brought about by heating or cooling. ... This kind of phase change--liquid to gas--is called evaporation or vaporization. Water vapor can in turn be cooled to form liquid water. This kind of phase change--from gas to liquid--is referred to as condensation vaporization.
Condensation is the change of the physical state of matter from gas phase into liquid phase, and is the reverse of vaporization. The word most often refers to the water cycle.
This is required answer
Molecular formulas: You find that 7.36 g of a compound has decomposed to give 6.93 of oxygen. The rest of the compound is hydrogen. If the molar mass of the compound is 34.0, what is its molecular formula?
1.this substance is a natural non-living material with a uniform structure throughout
A) Mineral
B) Rock
2. Any rock can become a/an (igneous, metamorphic, or sedimentary)_______rock by melting and reforming
3.A sedimentary rock can become a metamorphic rock by exposure to high heat and great__________
(1) The nonliving material with uniform structure has been Mineral. Thus, option A is correct.
(2) The rock formed by the cooling of volcanic eruption and lava has been the igneous rock.
(3) A sedimentary rock can become a metamorphic rock by exposure to high heat and great pressure.
The rock and minerals are the nonliving compositions of the nature that are rich source of many fuels, and natural gases.
The varying form of rocks are present in the nature, and are converted from one form to another.
Rock and Rock cycle(1) Rocks have been defined as the material with nonuniform structure and composition. Rocks are the rich mineral source. They are the uniform structure throughout the material.
Thus, the nonliving material with uniform structure has been Mineral. Thus, option A is correct.
(2) The rock has been converted from one form to another in the rock cycle. The sedimentary rocks are formed by the deposits from the sea. The breakdown of sedimentary rock result in the metamorphic rocks.
The metamorphic rocks are deep inside the crust.
The rock formed by the cooling of volcanic eruption and lava has been the igneous rock.
(3) The sedimentary rocks are converted to the metamorphic rocks by the application of high heat and pressure to the sediments.
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The conversion of 1 mole of water at 0°c to 1 mole of ice at 0°c releases 6.01 kj. what must be true about the heat absorbed during the melting of 1 mole of ice at 0°c to 1 mole of water at 0°c? it must be less than 6.01 kj. it must be greater than 6.01 kj. it must be 6.01 kj.
Answer: it must be 6.01 kJ.
Explanation:
Latent heat of freezing is the amount of heat released to convert 1 mole of liquid to 1 mole of solid at atmospheric pressure.
[tex]H_2O(l)\rightarrow H_2O(s)[/tex]
Given: latent heat of freezing is 6.01 kJ.
Latent heat of fusion is the amount of heat required to convert 1 mole of solid to 1 mole of liquid at atmospheric pressure. If latent heat of freezing is 6.01 kJ, latent heat of fusion will be same but the heat will be absorbed.
[tex]H_2O(s)\rightarrow H_2O(l)[/tex]
When a wave encounters a large gapless barrier which of the following describes what will happen
Why is carbon added to iron to make nails?
How many moles of fe(oh)2 [ksp = 1.8 ´ 10-15] will dissolve in 1.0 liter of water buffered at ph = 10.37?
Answer : The moles of [tex]Fe(OH)_2[/tex] is, [tex]3.259\times 10^{-8}mole[/tex]
Explanation :
First we have to calculate the [tex]H^+[/tex] concentration.
[tex]pH=-\log [H^+][/tex]
[tex]10.37=-\log [H^+][/tex]
[tex][H^+]=4.26\times 10^{-11}M[/tex]
Now we have to calculate the [tex]OH^-[/tex] concentration.
[tex][H^+][OH^-]=K_w[/tex]
[tex]4.26\times 10^{-11}\times [OH^-]=1.0\times 10^{-14}[/tex]
[tex][OH^-]=2.35\times 10^{-4}M[/tex]
Now we have to calculate the [tex]Fe^{2+}[/tex] ion concentration.
The balanced equilibrium reaction will be:
[tex]Fe(OH)_2\rightleftharpoons Fe^{2+}+2OH^-[/tex]
The expression for solubility constant for this reaction will be,
[tex]K_{sp}=[Fe^{2+}][OH^-]^2[/tex]
Now put all the given values in this expression, we get:
[tex]1.8\times 10^{-15}=[Fe^{2+}]\times (2.35\times 10^{-4})^2[/tex]
[tex][Fe^{2+}]=3.259\times 10^{-8}M[/tex]
Now we have to calculate the moles of [tex]Fe(OH)_2[/tex].
[tex]\text{Moles of }Fe(OH)_2=\text{Molarity of }Fe(OH)_2\times \text{Volume of solution}[/tex]
[tex]\text{Moles of }Fe(OH)_2=3.259\times 10^{-8}mole/L\times 1L=3.259\times 10^{-8}mole[/tex]
Therefore, the moles of [tex]Fe(OH)_2[/tex] is, [tex]3.259\times 10^{-8}mole[/tex]
The number of moles of Fe(OH)₂ dissolved in 1.0 liter of water buffered at pH = 10.37 is 3.29x10⁻⁸.
The reaction of Fe(OH)₂ solubility in water is:
Fe(OH)₂(s) ⇄ Fe²⁺(aq) + 2OH⁻(aq) (1)
The product of solubility constant for the above reaction is:
[tex] Ksp = [Fe^{2+}][OH^{-}]^{2} = 1.8\cdot 10^{-15} [/tex] (2)
To find the number of moles of Fe(OH)₂ dissolved in the water, we need to find the concentrations of Fe²⁺ and OH⁻.
The OH⁻ concentration can be calculated from the pH:
[tex] pH + pOH = 14 [/tex]
[tex] pOH = 14 - pH = 14 - 10.37 = 3.63 [/tex]
[tex] pOH = -log([OH^{-}]) [/tex]
[tex] [OH^{-}] = 10^{-pOH} = 10^{-3.63} = 2.34 \cdot 10^{-4} M [/tex]
Now, we can find the Fe²⁺ concentration (eq 2)
[tex] [Fe^{2+}] = \frac{Ksp}{[OH^{-}]^{2}} = \frac{1.8\cdot 10^{-15}}{(2.34 \cdot 10^{-4} M)^{2}} = 3.29 \cdot 10^{-8} M [/tex]
The number of moles of Fe²⁺ is:
[tex] n_{Fe^{2+}} = [Fe^{2+}]*V = 3.29 \cdot 10^{-8} mol/L*1.0 L = 3.29 \cdot 10^{-8} \:moles [/tex]
From reaction (1), we have that 1 mol of Fe(OH)₂ produces 1 mol of Fe²⁺, so the number of moles of Fe(OH)₂ is:
[tex] n_{Fe(OH)_{2}} = n_{Fe^{2+}} = 3.29 \cdot 10^{-8} \:moles [/tex]
Therefore, 3.29x10⁻⁸ moles of Fe(OH)₂ will dissolve in 1 liter of water.
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An experiment requires 54.6 g of ethylene glycol, a liquid whose density in SI units is 1114 kg/m3. Rather than weigh the sample on a balance, a chemist chooses to dispense the liquid using a graduated cylinder. What volume in milliliters of the liquid should be used?
Answer:
Volume in milliliters of the liquid should be used is 49 mL.
Explanation:
Mass of the ethylene glycol = 54.6 g = 0.0546 kg
Density = [tex]1114 kg/m^3[/tex]
Volume of ethylene gylcol = V
[tex]Density=\frac{Mass}{Volume}[/tex]
[tex]1114 kg/m^3=\frac{0.0546 kg}{V}[/tex]
[tex]V=\frac{0.0546 kg}{1114 kg/m^3}=4.90\times 10^{-5} m^3[/tex]
[tex]1 m^3=1000 L[/tex]
[tex]4.90\times 10^{-5} m^3=4.90\times 10^{-5}\times 1000=4.90\times 10^{-2} L=49 ml[/tex]
1 L = 1000 mL
Volume in milliliters of the liquid should be used is 49 mL.
A liquid that evaporates at a slow rate exhibits __________.
strong intermolecular forces
weak intermolecular forces
no intermolecular forces
a low volatility
Answer:
The correct answer is "strong intermolecular forces".
Explanation:
During the evaporation phase, external energy is applied to a substance that results in the separation of their molecules. The evaporation rate is closely related to the intermolecular forces within the substance. A liquid that evaporates at a slow rate exhibits strong intermolecular forces. This happens because the energy applied to the liquid would need more time to separate the molecules of a substance that are strongly attached.
what is the name of alcohol that would produce 3-pentanone
Final answer:
The alcohol that would produce 3-pentanone upon oxidation is 3-pentanol, a secondary alcohol that transforms into the ketone when oxidized.
Explanation:
The alcohol that would produce 3-pentanone when oxidized is 3-pentanol. This type of reaction is an oxidation process where the alcohol, specifically a secondary alcohol, is oxidized to a ketone. The oxidation of alcohols depends on the class of the alcohol. In this case, 3-pentanol is a secondary alcohol, which means it has two alkyl groups attached to the carbon bearing the hydroxyl (-OH) group. When this alcohol is oxidized using appropriate oxidizing agents like chromic acid or pyridinium chlorochromate (PCC), it forms the corresponding ketone, which is 3-pentanone.