№ files_lp_4_process_3_090369
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Character count: 7016
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Curriculum science standard outlining conceptual knowledge, modeling skills, vocabulary, misconceptions, and assessment expectations related to the atomic composition of molecules and extended structures in middle school physical science.
Standard Code:
6-8.PS1.A.1 (MLS); MS-PS1-1 (NGSS)
Grade Level:
7
Subject Area:
Science
Discipline:
Physical Science
Topic:
Structure and Properties of Matter
Educational Standard Type:
Curriculum standard and learning framework
Concept Focus:
Atomic composition of molecules and extended structures
Skills Focus:
Developing and using scientific models
Crosscutting Concept:
Scale, Proportion, and Quantity
Instructional Components:
Learning targets, vocabulary, misconceptions, and assessments
Prerequisite Standard:
5.PS1.A.1
Writer:
Javier Trejo
Reviewer:
Dynesse Saling
Price: 8 / 10 USD
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Note:
Year
Subject:
Biosafety, Recombinant Nucleic Acids, Synthetic Nucleic Acids, Biohazardous Materials
Document Type:
Registration Form
Institution:
Stanley Manne Children’s Research Institute, Ann & Robert H. Lurie Children’s Hospital of Chicago
Target Audience:
Researchers conducting experiments involving recombinant or synthetic nucleic acids or biohazardous materials
Year:
Not specified
Region / City:
Not specified
Topic:
Intermolecular forces, types of bonds
Document Type:
Educational material
Author:
Not specified
Target Audience:
Students, chemistry learners
Effective Date:
Not specified
Date of Approval:
Not specified
Date of Changes:
Not specified
Note:
Context
Note:
Year
Topic:
Electrical and magnetic properties of atoms and molecules
Document Type:
Syllabus
Contextual description:
Syllabus outlining the fundamental concepts and equations related to the electrical and magnetic properties of atoms and molecules, focusing on dipole moments, magnetic susceptibility, and polarization phenomena.
Subject:
Chemistry
Course:
AP Chemistry
Title:
Atomic Theory, Elements, Molecules and Compounds Practice Test – Answers
Document Type:
Answer Key
Content Type:
Multiple Choice Questions and Solutions
Educational Level:
Secondary Education / Advanced Placement
Topic Coverage:
Atomic theory, ionic compounds, nomenclature, subatomic particles, isotopes, historical atomic models
Associated Experiments:
Millikan oil drop experiment, Rutherford gold foil experiment
Referenced Scientists:
John Dalton; Ernest Rutherford; J.J. Thomson; Democritus
Assessment Format:
Multiple Choice with Answer Indicators
Intended Audience:
AP Chemistry students
Year:
2021
Region / City:
Chengdu, Sichuan, China
Topic:
Molecular generation, drug design, computational biology
Document Type:
Research Article
Organization:
Sichuan University, West China Hospital, Minjiang University
Authors:
Yuanyuan Jiang, Guo Zhang, Jing You, Hailin Zhang, Rui Yao, Huanzhang Xie, Ziyi Xia, Mengzhe Dai, Yunjie Wu, Shengyong Yang
Target Audience:
Researchers in computational biology, drug design, and related fields
Period of Validity:
N/A
Approval Date:
N/A
Modification Date:
N/A
Year:
2024
Region / City:
Ogbomoso, Nigeria
Theme:
Multidrug-resistant tuberculosis, Bioactive compounds
Document Type:
Research Study
Institution:
Ladoke Akintola University of Technology
Author:
Not specified
Target Audience:
Researchers, Medical and Pharmaceutical professionals
Duration of Study:
January 2024 - December 2024
Approval Date:
Not specified
Date of Last Update:
Not specified
Year:
2026
Subject:
Chemistry
Type of document:
Educational worksheet
Audience:
High school students
Topic:
Stoichiometry and dimensional analysis
Institution:
High school science class
Required materials:
Chalk, sidewalk, calculator
Instructions:
Show all work, use dimensional analysis and units
Subject:
Biology
Topic:
Movement of molecules in cells (osmosis and diffusion)
Document type:
Educational assessment / worksheet
Educational level:
School science / biology
Assessment duration:
43 minutes
Total marks available:
43
Main concepts:
Osmosis, diffusion, selectively permeable membrane, surface area to volume ratio, plant cell structure
Biological materials mentioned:
Plant cell, potato tissue, agar plate, chicken egg
Experimental contexts:
Osmosis in potato cubes; diffusion of food dye in agar
Student tasks:
Diagram labeling, calculations, experimental interpretation, short explanations, biological drawing
Measurement units used:
centimeters (cm), percentage (%), hours
Question structure:
Four questions with multiple sub-questions and mark allocations
Organization:
Institutional Biosafety Committee (IBC), Ann & Robert H. Lurie Children’s Hospital of Chicago
Document Type:
Administrative Form
Purpose:
Inactivation of an approved biosafety research protocol after project completion
Subject Area:
Biosafety and Biohazardous Research Oversight
Related Activities:
Research involving recombinant and synthetic nucleic acid molecules and biohazardous materials
Submission Method:
E-mail submission to [email protected]
Responsible Role:
Principal Investigator (PI)
Compliance Reference:
NIH Guide for the shipment and transfer of recombinant and synthetic nucleic acids
Key Declarations:
Confirmation of project completion, biosafety compliance, disposal of biohazards, and proper storage of biological agents
Required Fields:
Date of report, biosafety registration number, protocol title, PI name, PI email, investigator signature, date
Approval Authority:
Institutional Biosafety Committee
Note:
Year
Topic:
Biology, Organic Chemistry
Document Type:
Educational Question
Target audience:
Students, Educators
Year:
2026
Institution:
National Institutes of Health (NIH)
Type of Document:
Guidance / Regulatory Summary
Subject:
Recombinant DNA (rDNA) and Synthetic DNA (sDNA) research
Author:
NIH Office of Biotechnology Activities (OBA)
Target Audience:
Researchers using NIH funds, Institutional Biosafety Committees
Scope:
United States, applicable to institutions receiving NIH funding
Regulatory References:
NIH Guidelines, CDC Select Agent Program, BMBL Manual
Compliance Requirements:
Institutional Biosafety Committee (IBC) approval, RAC review, IRB approval for human research, adherence to biosafety and waste management protocols
Publication Date:
2026
Website Reference:
http://osp.od.nih.gov/office-biotechnology-activities/biosafety/nih-guidelines
Year:
2026
Subject:
Chemistry, Molecular Structure, Bonding
Document Type:
Educational Exercise / Problem Set
Target Audience:
Students, Chemistry Learners
Topics Covered:
Hybridization, VSEPR Theory, Bond Lengths, Sigma and Pi Bonds, Molecular Polarity, Potential Energy Diagrams, Reaction Mechanisms
Molecules Discussed:
NH3, PF3, H2O, H2S, C2H2, C2H6, CH4, NF3, BF3, CO2, SO2, NBr5, Benzene
Key Concepts:
Atomic Hybridization, Bond Angles, Electronegativity, Molecular Geometry, Covalent Bonds, Diatomic Molecules, Energy Transitions, Resonance
Questions Count:
Multiple choice and calculation-based questions with diagrams
Purpose:
To assess understanding of chemical bonding, molecular geometry, and reaction analysis
Format:
Tabular data, diagrams, and theoretical questions
Year:
2024
Region / city:
Ireland
Topic:
Atomic physics, Semiconductors
Document type:
Educational booklet
Author:
Noel Cunningham
Target audience:
Students studying atomic physics
Period of validity:
2002–2023
Date of approval:
04/08/2024
Last updated:
04/08/2024
Year:
2023
Region / City:
USA
Topic:
Ferroelectric materials, Thin films
Document type:
Research article
Organization / Institution:
The Kurt J. Lesker Company, Pennsylvania State University, Massachusetts Institute of Technology, Army Research Laboratory
Author:
Gilbert B. Rayner, Jr., Noel O’Toole, Nathaniel Nelson, Bangzhi Liu, Jeffrey Shallenberger, Gregory Muha, Piush Behera, Suraj Cheema, Blaine Johs, Nastazia Moshirfatemi, Daniel Drury, Brendan M. Hanrahan, Nicholas A. Strnad
Target audience:
Researchers, Engineers, Academics
Period of applicability:
N/A
Approval date:
N/A
Date of changes:
N/A
Year:
Not specified
Region / city:
Not specified
Subject:
Chemistry
Document type:
Practical guide
Institution:
Not specified
Author:
Not specified
Target audience:
Students, educators
Period of validity:
Not specified
Approval date:
Not specified
Date of modifications:
Not specified
Context description:
Practical guide for conducting an experiment to calculate the relative atomic mass of magnesium through reaction with sulfuric acid.
Note:
Year
Subject:
Chemistry
Document Type:
Worksheet
Target Audience:
Students
Subject:
Chemistry
Course:
AP Chemistry
Title:
Atomic Theory, Elements, Molecules and Compounds Practice Test – Answers
Document Type:
Answer Key
Content Type:
Multiple Choice Questions and Solutions
Educational Level:
Secondary Education / Advanced Placement
Topic Coverage:
Atomic theory, ionic compounds, nomenclature, subatomic particles, isotopes, historical atomic models
Associated Experiments:
Millikan oil drop experiment, Rutherford gold foil experiment
Referenced Scientists:
John Dalton; Ernest Rutherford; J.J. Thomson; Democritus
Assessment Format:
Multiple Choice with Answer Indicators
Intended Audience:
AP Chemistry students
Subject:
Physics
Topic:
Atomic structure and ionising radiation
Type of document:
Examination paper
Total marks:
35 marks
Question count:
6
Assessment format:
Structured and multiple-choice questions
Includes diagrams:
Figures 1–6
Scientific concepts covered:
subatomic particles, isotopes, radioactive decay, half-life, ionising radiation, Rutherford gold foil experiment
Practical component:
Beta particle absorption experiment with count rate measurements
Historical context:
Late 19th century atomic models and Rutherford experiment
Year:
400 BCE
Region / City:
Ancient Greece
Subject:
Atomic theory
Document type:
Historical overview
Author:
Not specified
Target audience:
Students of science, researchers
Date of approval:
Not specified
Date of revisions:
Not specified