Login
Remember
Register
Science Q&A Sarvan.Net
All Activity
Q&A
Questions
Hot!
Unanswered
Tags
Categories
Users
Ask a Question
About Us
XML Sitemap
Terms of Service
Ask a Question
What is the bond dissociation energy (in kJ/mol) of the O-H bond in a water molecule if the energy required to break this bond is 464 kJ/mol?
0
votes
21
views
asked
5 days
ago
in
ThermoChemistry
by
HaydenGowrie
(
270
points)
What is the bond dissociation energy (in kJ/mol) of the O-H bond in a water molecule if the energy required to break this bond is 464 kJ/mol?
Your comment on this question:
Your name to display (optional):
Email me at this address if a comment is added after mine:
Email me if a comment is added after mine
Privacy: Your email address will only be used for sending these notifications.
Your answer
Your name to display (optional):
Email me at this address if my answer is selected or commented on:
Email me if my answer is selected or commented on
Privacy: Your email address will only be used for sending these notifications.
1
Answer
0
votes
answered
5 days
ago
by
IreneLemus97
(
290
points)
The bond dissociation energy of the O-H bond in a water molecule is 464 kJ/mol. This is because the energy required to break the bond is given as 464 kJ/mol, which is the same as the bond dissociation energy.
Your comment on this answer:
Your name to display (optional):
Email me at this address if a comment is added after mine:
Email me if a comment is added after mine
Privacy: Your email address will only be used for sending these notifications.
Related questions
0
votes
1
answer
58
views
Calculate the bond dissociation energy of the O-H bond in a water molecule (H2O) given the enthalpy change for the reaction:H2O (g) → H2 (g) + 1/2 O2 (g)ΔH = +483.6 kJ/mol(Note: the bond dissociation energy represents the energy required to break a bond into its constituent atoms.)
asked
Jan 23
in
ThermoChemistry
by
RosalindMont
(
350
points)
0
votes
1
answer
54
views
Calculate the bond dissociation energy (in kJ/mol) of the C-H bond in methane (CH4) using the following data: - The enthalpy change for the combustion of one mole of methane gas is -890.3 kJ/mol.- The energy required to break one mole of H-H bonds is 433.4 kJ/mol.- The energy required to break one mole of C=O bonds is 799.5 kJ/mol.- The energy required to break one mole of O-H bonds is 463.0 kJ/mol.
asked
Jan 23
in
ThermoChemistry
by
JimmyBecker9
(
290
points)
0
votes
1
answer
66
views
Calculate the bond dissociation energy of the O-H bond in a water molecule if the enthalpy change for the following reaction is -285.8 kJ/mol:2H2(g) + O2(g) -> 2H2O(l)
asked
Jan 23
in
ThermoChemistry
by
DortheaConsi
(
330
points)
0
votes
1
answer
63
views
Calculate the bond dissociation energy (in kJ/mol) for the breaking of the carbon-hydrogen (C-H) bond in methane (CH4), given the following information: CH4 (g) → CH3 (g) + H (g) ∆H = 432 kJ/mol Note: The bond dissociation energy is the amount of energy required to break a bond between two atoms in a molecule, resulting in two separate atoms.
asked
Jan 23
in
ThermoChemistry
by
JacquettaFor
(
330
points)
0
votes
1
answer
43
views
Calculate the bond energy of O-O bond in a molecule of oxygen gas (O$_2$) given that the dissociation energy required to break this bond is 498 kJ/mol.
asked
Jan 23
in
Chemical reactions
by
MelissaCrain
(
390
points)
35.2k
questions
35.1k
answers
2
comments
6.7k
users
Categories
All categories
Science
(12.0k)
Psychology
(10.5k)
Chemistry
(12.8k)
Organic Chemistry
(616)
Inorganic Chemistry
(472)
Physical Chemistry
(462)
Analytical Chemistry
(645)
BioChemistry
(654)
Polymer Chemistry
(664)
Medicinal Chemistry
(610)
Environmental Chemistry
(613)
ElectroChemistry
(306)
Computational Chemistry
(593)
Materials Chemistry
(545)
Surface Chemistry
(482)
Coordination Chemistry
(599)
Quantum Chemistry
(519)
ThermoChemistry
(442)
PhotoChemistry
(627)
Chemical kinetics
(583)
Chemical thermodynamics
(409)
Chemical equilibrium
(292)
Chemical bonding
(539)
Chemical reactions
(358)
Chemical synthesis
(371)
Chemical engineering
(588)
Chemical education
(762)
Welcome to Sarvan Science Q&A, where you can ask questions and receive answers from other members of the community.
...