CHEMISTRY HIGH SCHOOL

The molar heat of vaporization of water is 40.7kJ/mol. How much heat must be absorbed to convert 50.0 grams of liquid water at 100oC to steam at 100oC?A) 1.46 X 10 kJ
B) 1.13 X 102kJ
C) 2.04 X 103kJ
D) 3.66 X 104kJ

Answers

Answer 1
Answer: During a phase change the temperature does not change since all of the heat is being absorbed in order to break the intermolecular forces.  Due to that, the formula will not need to have T in it and is actually q=nΔH(v).
n=the number of moles (in this case 2.778mol of water since you divide 50g by 18g/mol).
ΔH(v)=the molar heat of vaporization (in this case 40.7kJ/mol).
q=the heat that must be absorbed
q=2.778mol×40.7kJ/mol
q=113.1kJ
Therefore the water needs to absorb 1.13×10²kJ.

I hope this helps.  Let me know if anything is unclear.

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How much energy is needed to heat enough water to make a cup of tea (250 ml), if the water is initially at 20.0°C and you want to increase the temperature to 85.0°C? (1.00 mL of water has a mass of 1.00 g.)As the tea in the previous question steeps, it cools from 85.0°C to 75.0°C. How much energy is lost by the tea as it steeps?

Answers

Answer:

Heat Energy needed (Q) = 68250 J

Energy lost (Q') = 10500 J

Explanation:

Applying,

Q = cm(t₂-t₁)............. Equation 1

Where Q = heat  energy needed, c = specific heat capacity of water, m = mass of water, t₁ = initial temperature, t₂ = final temperature.

From the question,

Given: m = 250 g = 0.25 kg, t₁ = 20.0°C, t₂ = 85.0°C

Constant: c = 4200 J/kg°C

Substitute these values into equation 1

Q = 0.25(4200)(85-20)

Q = 68250 J.

Similarly, heat lost

Q' = cm(t₁-t₂)................. Equation 2

Where Q = heat lost

Given: t₁ = 85°C, t₂ = 75°C

Substitute into equation 2

Q' = 4200(0.25)(85-75)

Q' = 10500 J

_____ is the element from which iron is taken.

Carbon
Quartz
Hematite

Answers

Hematite is the element
Answer:

Hematite is the element from which iron is taken.

A nuclear fission reaction and a nuclear fusion reaction are similar because both reactions(1) form heavy nuclides from light nuclides
(2) form light nuclides from heavy nuclides
(3) release a large amount of energy
(4) absorb a large amount of energy

Answers

Both reactions release a large amount of energy is the statement that is correct about the similarity between a nuclear fission reaction and a nuclear fusion reaction.

A nuclear reaction is a procedure that leads to combining and modifying the nuclei of atoms, absorbing or releasing particles and energy according to each case.

  • When nuclei fragment, the reaction is known as nuclear fission, which releases energy.

  • The reaction that occurs when two light atomic nuclei join together is known as nuclear fusion, generating a heavier nucleus and releasing a large amount of energy.

Therefore, we can conclude that while in a fusion reaction two or more light nuclei unite, in a fission reaction a heavy nucleus breaks, both cause the release of energy.

Learn more about nuclear reactions here: brainly.com/question/14019172

Answer: (3) release a large amount of energy

Explanation:

Nuclear fusion is a process which involves the conversion of two small nuclei to form a heavy nuclei along with release of energy.

4_1^1\textrm{H}\rightarrow _2^4\textrm{He}+2_(+1)^0\textrm{e}+\text{energy}

Nuclear fission is a process which involves the conversion of a heavier nuclei into two or more small and stable nuclei along with the release of energy.

_(92)^(235)\textrm{U}+_0^1\textrm{n}\rightarrow _(56)^(143)Ba+_(36)^(90)Kr+3_0^1\textrm{n}+\text{energy}

Thus in the both the reactions energy is released.

State the correct IUPAC chemical name for the following formula? 1) Copper chloride 2) Copper bromide 3) Copper iodide 4) Copper hydride

Answers

The correct IUPAC chemical name for the formula \(CuCl\) is "Copper(I) chloride." So, the closest option is 1) Copper chloride.

Final answer:

The correct IUPAC chemical names for Copper chloride, Copper bromide, Copper iodide, and Copper hydride are Copper(II) chloride, Copper(II) bromide, Copper(II) iodide, and Copper hydride respectively.

Explanation:

In accordance with International Union of Pure and Applied Chemistry (IUPAC) naming conventions, the chemical names for the given formulas are as follows:

  • Copper chloride is referred to as copper(II) chloride in the IUPAC naming system as it contains the copper(II) ion, which has a +2 charge.
  • Copper bromide is named copper(II) bromide, reflecting the +2 charge of the copper(II) ion.
  • Copper iodide is termed copper(II) iodide to denote the +2 charge of the copper(II) ion.
  • Copper hydride is an exception as it is simply named copper hydride in IUPAC nomenclature.

Learn more about IUPAC Naming here:

brainly.com/question/35353412

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What is the difference in a transverse and a longitudinal wave?Group of answer choices

Transverse waves are bigger than longitudinal waves

A transverse wave has crests and troughs and a longitudinal has compressions and rarefactions.

Transverse waves are sound waves and longitudinal waves are light waves.

Answers

Answer:

A transverse wave has crests and troughs and a longitudinal has compressions and rarefactions.

Which element is present in all organiccompounds?
(1) nitrogen
(2) oxygen
(3) carbon
(4) sulfur

Answers

i'm pretty sure hydrogen is but i would go with #3 carbon
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