The Nature of the Chemical Bond
GPTKB entity
Statements (53)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:book
|
| gptkbp:author |
gptkb:Linus_Pauling
|
| gptkbp:contains |
diagrams and illustrations
discussion of covalent bonds discussion of hybridization discussion of ionic bonds discussion of metallic bonds discussion of resonance |
| gptkbp:contributes_to |
understanding of molecular structure
understanding of bonding theories understanding of chemical reactivity |
| gptkbp:discusses |
gptkb:spectroscopy
kinetics thermodynamics chemical stability electronegativity molecular geometry reaction mechanisms molecular interactions bond angles bond lengths quantum mechanics in chemistry |
| gptkbp:field |
theoretical chemistry
|
| gptkbp:first_edition |
1st edition
|
| gptkbp:has_influence_on |
pharmaceutical development
environmental chemistry chemical research methodologies chemical engineering practices |
| https://www.w3.org/2000/01/rdf-schema#label |
The Nature of the Chemical Bond
|
| gptkbp:impact |
foundational work in chemistry
|
| gptkbp:influenced |
chemical education
molecular orbital theory valence bond theory research in nanotechnology research in materials science research in biochemistry modern chemistry textbooks |
| gptkbp:is_cited_in |
thousands of academic papers
|
| gptkbp:isbn |
978-1501201234
|
| gptkbp:language |
English
|
| gptkbp:page_count |
464
|
| gptkbp:provides |
examples from inorganic chemistry
examples from organic chemistry examples from physical chemistry examples from theoretical chemistry theoretical framework for chemical bonding |
| gptkbp:published_year |
1939
|
| gptkbp:publisher |
gptkb:Cornell_University_Press
|
| gptkbp:recognized_by |
gptkb:Nobel_Prize_in_Chemistry
|
| gptkbp:subject |
chemistry
|
| gptkbp:translated_into |
multiple languages
|
| gptkbp:bfsParent |
gptkb:Linus_Pauling
|
| gptkbp:bfsLayer |
4
|