№ files_lp_4_process_3_104625
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Collection of solved physics problems illustrating 2-D kinematics under constant acceleration with detailed derivations and diagrams for projectiles, charged particles, and objects in motion.
Course:
Physics 1135
Type:
Homework Assignment
Topic:
Two-dimensional kinematics with constant acceleration
Level:
Undergraduate
Institution:
University (unspecified)
Author:
Instructor (unspecified)
Year:
2026
Target Audience:
Undergraduate physics students
Problems Included:
Projectile motion, electron motion between plates, dart and target scenario, package drop from airplane
Price: 8 / 10 USD
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2026
Region / City:
Not specified
Subject:
Physics – Mechanics
Document Type:
Educational exercise / Problem set
Institution:
Not specified
Author:
Not specified
Target Audience:
Students learning vectors and forces
Topics Covered:
Vector addition, force components, tension, friction, acceleration, equilibrium
Equipment Mentioned:
Ropes, chains, sleds, suitcases, sports scenarios
Applications:
Real-world force problems including human, animal, and object interactions
Problem Types:
Numerical calculations, vector decomposition, free-body analysis
Course:
Physics 1135
Type:
Homework assignment
Topic:
Vectors and two-dimensional kinematics
Audience:
Undergraduate students
Institution:
University Physics Department
Recitation:
3
Problems:
4
Date assigned:
Not specified
Due date:
Not specified
Includes:
Vector diagrams, calculations of magnitude and direction, kinematics problems
Year:
2018
Course:
Physics
Term:
2018-2019
Date:
October 18, 2018
Topic:
Motion in Two Dimensions, Vectors, Forces
Type of document:
Class Agenda and Problem Set
Author / Instructor:
Not specified
Target audience:
High school or introductory college physics students
Homework:
Chapter 6 Cornell Notes, Chapter 6 Vocabulary, Motion in Two Dimensions exercises
Test date:
October 25, 2018
Assignments:
11 enrichment problems involving forces and acceleration calculations
Note:
Year
Institution:
Alfred State College
Contextual Description:
A scientific analysis of a 2D particle-in-a-box model applied to a porphyrin molecule, detailing the calculation of allowed energy levels and absorption energy for conjugated electron systems.
Year:
2025
Region / City:
Not specified
Topic:
Physics
Document Type:
Exam
Institution:
Not specified
Author:
Not specified
Target Audience:
Students
Period of validity:
Fall 2025
Approval Date:
Not specified
Date of modifications:
Not specified
Year:
2025
Course:
Physics 1135
Term:
Spring
Document Type:
Answer Sheet
Version:
A
Exam Type:
EM Mini-Test & Final Exam
Target Audience:
Undergraduate students
Scoring:
Final Exam = 220, EM Mini-Test = 70
Instructions:
No calculators or notes allowed, answers must be written clearly on this sheet
Content Focus:
Mechanics, Waves, Thermodynamics
Year:
2025
Course:
Physics 1135
Term:
Spring
Type:
Exam Answer Sheet
Version:
B
Components:
EM Mini-Test, Final Exam
Scoring:
Mini-Test 70 points, Final Exam 220 points
Instructions:
No calculators or notes allowed, answers must be written on answer sheet
Target Audience:
Undergraduate physics students
Language:
English
Course:
Physics 1135
Type:
Homework assignment
Topic:
Vectors and two-dimensional kinematics
Audience:
Undergraduate students
Institution:
University Physics Department
Recitation:
3
Problems:
4
Date assigned:
Not specified
Due date:
Not specified
Includes:
Vector diagrams, calculations of magnitude and direction, kinematics problems
Year:
2026
Term:
Spring 2026
Course Code:
Physics 1135
Course Type:
Undergraduate Course
Department:
Physics
Instructor:
Dr. Agnes Vojta
Lab Instructor:
Mr. Peacher
Required Materials:
University Physics (Young & Freedman), Laboratory Manual, Computer with Internet, Scanner
Platform:
Canvas
Prerequisite:
Calculus 1 (Math 1214 or 1211)
Lecture Schedule:
Tuesday & Thursday
Recitation Schedule:
Wednesday & Friday
Laboratory Schedule:
Every other week
Office Hours:
Physics Learning Center, Monday through Thursday
Grading Components:
Exams 60%, End-Material Test 5%, Recitation 15%, Homework 5%, Laboratory 15%
Grade Scale:
A ≥89.50%, B ≥79.50%, C ≥69.50%, D ≥59.50%, F <59.50%
Makeup Policy:
Permitted only for illness or university-sponsored events
Submission Format:
Homework and Lab Reports via Canvas as PDF
Year:
11
Note:
Region / city
Subject:
Physics
Document type:
Course overview
Target audience:
Students, Teachers
Context:
This is a detailed course overview for a Year 11 physics module focused on kinematics, including various teaching strategies, core concepts, misconceptions, and active learning activities.
Year:
2023
Region / City:
Not specified
Topic:
Physics / Kinematics
Document Type:
Multiple-Choice Questions
Organization / Institution:
Not specified
Author:
Not specified
Target Audience:
Students
Period of Validity:
Not specified
Approval Date:
Not specified
Date of Changes:
Not specified
Course:
PH 201
Subject:
Physics
Topic:
Rotational Kinematics
Document Type:
Homework Assignment
Number of Problems:
30
Academic Level:
Introductory College Physics
Content Structure:
Problem Statements with Solution Sections
Physical Quantities Covered:
Angular displacement, angular velocity, angular acceleration, tangential speed, rotational period
Measurement Units:
SI units (rad, rad/s, rad/s², m, s)
Context:
Mechanics curriculum
Year:
2026
Study type:
Biomechanical research
Subjects:
Patients with reverse total shoulder arthroplasty (rTSA) and control group
Data type:
CT-based kinematic measurements
Variables analyzed:
Scapulothoracic and glenohumeral joint angles, plane of elevation, true axial rotation, protraction, true tilt, upward rotation
Methods:
Linear mixed-effects models
Phase analyzed:
Elevation and depression
Effect modifiers:
Handheld weight, coordinate system definition
Statistical significance:
p values, 95% confidence intervals
Coordinate systems:
Angulus acromialis-based and glenoid-centered
Institution:
Not specified
Authors:
Not specified
Year:
2026
Subject:
Physics
Topic:
Kinematics
Document Type:
Educational exercise
Target Audience:
High school or introductory college students
Sections:
Distance, Displacement, Velocity, Relative Velocity, Acceleration, Gravity
Exercises Included:
Numerical problems, Graph interpretation, Concept questions
Page Range:
66-75
Year:
Not specified
Subject:
Physics
Topic:
2D Kinematics, Vector Analysis, Projectile Motion
Grade Level:
11
Author / Instructor:
Mr Lam
Format:
Problem set with exercises and solution reference
Source / URL:
https://blogs.vsb.bc.ca/mlam/physics-11/kinematics/PS
Target Audience:
High school students
Skills Practiced:
Vector decomposition, displacement, velocity addition, horizontal and vertical motion calculations
Unit:
1b
Section:
Problems 1–4
Year:
2023
Region / city:
Not specified
Topic:
Physics
Document type:
Exam Review
Institution:
Not specified
Author:
Not specified
Target audience:
Students studying AP Physics
Period of validity:
Not specified
Approval date:
Not specified
Date of changes:
Not specified
Year:
2020
Department:
Aerospace Engineering
Course Code:
ENG 234
Course Title:
Engineering Mechanics 2
Author:
Davies Edwin Tamunoboma
Target Audience:
Engineering students
Period of Action:
Not specified
Approval Date:
27/4/2020
Date of Changes:
Not specified
Context:
The document contains an assignment with various problems on kinematics, focusing on the position, velocity, acceleration, and motion of particles along straight lines.
Course:
Physics 1135
Type:
Homework assignment
Topic:
Vectors and two-dimensional kinematics
Audience:
Undergraduate students
Institution:
University Physics Department
Recitation:
3
Problems:
4
Date assigned:
Not specified
Due date:
Not specified
Includes:
Vector diagrams, calculations of magnitude and direction, kinematics problems