A protein denatures when you cook it at 60°C. What is that temperature on the Kelvin scale?
Answers
60°C +273 = 333 K
Related Questions
A student wants to prepare a 1.0-liter solution of a specific Molarity. The student determines that the mass of the solute needs to be 30. grams. What is the proper procedure to follow?(1) Add 30. g of solute to 1.0 L of solvent.(2) Add 30. g of solute to 970. mL of solvent to make 1.0 L of solution.(3) Add 1000. g of solvent to 30. g of solute.(4) Add enough solvent to 30. g of solute to make 1.0 L of solution.
Suppose you have designed a new thermometer called the x thermometer. On the x scale the boiling point of water is 129 ?x and the freezing point of water is 13 ?x. Part a at what temperature are the readings on the fahrenheit and x thermometers the same?
Why must water be heated at about 80 degrees during esterification
The compound before the arrow are called blank and the compound after the arrow are called blank
B) dispersion.
C) refraction.
D) resolution.
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Hope this helps!
The correct answer is (C)
= refraction
Answers
Answer: The mass of excess reagent left is 20.48 g
Explanation:
To calculate the number of moles, we use the equation:
.....(1)
- For sulfur:
Given mass of sulfur = 50 g
Molar mass of sulfur = 32 g/mol
Putting values in equation 1, we get:
- For fluorine gas:
Given mass of fluorine gas = 105 g
Molar mass of fluorine gas = 37.99 g/mol
Putting values in equation 1, we get:
The chemical equation for the reaction of sulfur and fluorine gas follows:
By Stoichiometry of the reaction:
3 moles of fluorine gas reacts with 1 mole of sulfur
So, 2.76 moles of fluorine gas will react with = of sulfur
As, given amount of sulfur is more than the required amount. So, it is considered as an excess reagent.
Thus, fluorine gas is considered as a limiting reagent because it limits the formation of product.
Moles of excess reagent (sulfur) left = 1.56 - 0.92 = 0.64 moles
- Now, calculating the mass of sulfur from equation 1, we get:
Molar mass of sulfur = 32 g/mol
Moles of sulfur = 0.64 moles
Putting values in equation 1, we get:
Hence, the mass of excess reagent left is 20.48 g
Answers
Sodium is a group 1 element with atomic number 1. It has 11 electrons. It is soft reactive metal. It has 1 valence electron.
Fluorine is a group 7 element, a hologen with 7 valence electron. It is a most reactive non metal.
When sodium react with fluorine, ionic bond is formed in the resulting compound sodium fluoride.
One sodium and fluorine each totaling 2 atoms are enough to make the bond.
As the bond is formed, both atoms have octet structure. That is they each have 8 electrons on their outermost shells.
The positive charge on sodium indicates that sodium had lost 1 electron to fluorine atom.
The negative charge on fluorine ion indicates that fluorine atom had gained 1 electron from sodium atom to form negative ion.
The name of the compound is sodium fluoride with formula NaF.
brainliest please <3
Answers
Answer: The mixture formed will be heterogeneous mixture.
Explanation: When we mix oil and vinegar and blend it together to form a smooth mixture, the final mixture will still be heterogeneous in nature.
As we know that vinegar is a solution of acetic acid in water, which is polar in nature and oil is non-polar in nature.
When, we mix polar compound with a non-polar one, the resulting mixture may mix for a certain time, but after a time, we will be able to see the two layers in a mixture.
And heterogeneous mixtures are defined as the mixtures in which there is a distinct physical boundary present between the solutions in a mixture.
Hence, the mixture of oil and vinegar is a heterogeneous mixture.
Sample Response: A homogeneous mixture can only form when one of the substances can dissolve the other one. Oil and water cannot dissolve each other, so they must form a heterogeneous mixture with small particles of vinegar dispersed throughout the oil, yet not dissolved.
Explanation: Hope this Helps!
TRUE
FALSE
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Final answer:
The solutions having pOH=3.37, [h+]=3.8x10^-4 and pH=5.11 are acidic. Solutions with pOH=11.40, [OH-]=6.6x10^-3 and pH=12.94 are basic. The solution with [h+]=1.0x10^-7 is neutral. The solutions with [h+]=5.8x10^-8 and [OH-]=3.5x10^-12 are mildly acidic and basic respectively.
Explanation:
In an aqueous solution at 25 °C, the pH and pOH scales are defined so that water, which is neutral, has a pH of 7.00 and a pOH of 7.00. If the pH is less than 7, the solution is acidic. If the pH is greater than 7, the solution is basic. Hence, solutions with pOH=3.37 and [h+]=3.8x10^-4 are acidic, as they would have a pH lower than 7. The solutions with pOH=11.40, [OH-]=6.6x10^-3 and pH=12.94 are basic, as they would have a pH higher than 7. The solution with [h+]=1.0x10^-7 is neutral as it has a pH of 7. The solutions with [h+]=5.8x10^-8 and [OH-]=3.5x10^-12 are slightly acidic and basic respectively due to being close to the pH of 7. The solution with pH=5.11 is acidic as it's less than 7.
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Final answer:
The given solutions can be classified based on pH, pOH, [H+] and [OH-]. Based on these values, they are categorised as acidic, basic, or neutral.
Explanation:
The values provided are measures of the concentration of Hydronium ions [H+], hydroxide ions [OH-], pH, and pOH, which help determine whether a solution is acidic, basic, or neutral. At 25 degrees Celsius, a neutral solution has pH = 7, pOH=7, [H+] = 1.0x10^-7, and [OH-] = 1.0x10^-7. If the pH or [H+] is less than 7, or pOH or [OH-] is greater than 7, the solution is acidic. If the pH or [H+] is greater than 7, or pOH or [OH-] is less than 7, the solution is basic.
Applying this for each solution: pOH=3.37, acidic; pOH=11.40, basic; [H+]=3.8x10^-4, acidic; [H+]=5.8x10^-8, acidic; [OH-]=3.5x10^-12, acidic; [OH-]=6.6x10^-3, basic; [H+]=1.0x10^-7, neutral; pOH=7, neutral; pH=5, acidic; pH=12.94, basic.
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