PCS 211
TMU
Course Overview
Lessons & Practice
I. Welcome
1 min1. Physics and Measurement
1.1hr2. Motion in One Dimension
2.6hr3. Vectors
1.4hr4. Motion in Two Dimensions
2.7hr5. The Laws of Motion
2.8hr6. Circular Motion and Other Applications of Newton's Laws
34min7. Energy of a System
1.2hr8. Conservation of Energy
1.2hr9. Linear Momentum and Collisions
2.2hr10. Rotation of a Rigid Object About a Fixed Axis
3hr11. Angular Momentum
45min12. Static Equilibrium & Elasticity
1.7hr13. Hibbeler: Introduction (Statics)
55min14. Hibbeler: Force Vectors
6hr14.2.1. Scalars & Vectors - Definitions & Examples3 min14.2.2. Vectors (2D)12 min14.2.3. Vectors (3D)6 min14.2.4. Examples: Scalars and Vectors (Sine and Cosine Laws)13 min14.2.5. Practice: Scalars and Vectors (Sine and Cosine Laws)10 min14.2.6. Practice: Scalars and Vectors (Catesian Format, Sine Law)16 min14.2.7. Example: Scalars and Vectors (Rectangular Components)13 min14.2.8. Practice: Scalars and Vectors (Rectangular Components) 11 min
14.6.1. Forces 3D Cartesian Form (IMPORTANT!)11 min14.6.2. Example 1 - Part 1: 3D Force Vectors 11 min14.6.3. Example 1 - Part 2: 3D Force Vectors 7 min14.6.4. Example 2: 3D Force Vectors13 min14.6.5. Example: Forces in Cartesian Vector Form16 min14.6.6. Practice 1: 3D Force Vectors10 min14.6.7. Practice: 3D Vector Practice Questions Part 15 min14.6.8. Practice: 3D Vector Practice Questions Part 26 min
15. Hibbeler: Equilibrium of a Particle
4hr15.3.1. Ropes, Cables, and Springs (2D Equilibrium)7 min15.3.2. Pulleys (2D Equilibrium)7 min15.3.3. Example 1: Ropes and Cables (2D)11 min15.3.4. Practice 1: Ropes and Cables (2D)13 min15.3.5. Example 2: Part 1 - Pulleys (2D) - IMPORTANT!12 min15.3.6. Example 2: Part 2 - Pulleys (2D) - IMPORTANT! 6 min15.3.7. Practice 2: Pulleys (2D) - IMPORTANT!13 min15.3.8. Example Question 1: Cables and Springs5 min15.3.9. Example Question 2: Cables and Hanging Weights3 min15.3.10. Example Question 3: Two Cables7 min
15.6.1. Example Question 1: Cables and Weights15.6.2. Example Question 2: Weights and Two Cables15.6.3. Example Question 3: Cables15.6.4. Particle Equilibrium - Practice Questions (2D Problems - Part 1)15.6.5. Particle Equilibrium - Practice Questions (2D Problems - Part 2)8 min15.6.6. Particle Equilibrium - Practice Questions (3D Problems - Part 1)9 min15.6.7. Particle Equilibrium - Practice Questions (3D Problems - Part 2)13 min15.6.8. Quiz: Practice Questions - Particle Equilibrium (Part 1)1 Qn15.6.9. Quiz: Practice Questions - Particle Equilibrium (Part 2)2 Qns
16. Hibbeler: Force System Resultants
6hr16.3.1. Moments About a Point - Scalar Formulation (for 2D)12 min16.3.2. Example 1 - Part 1 (M= r x F): Moment About a Point (2D)11 min16.3.3. Example 1 - Part 2 (M= Fd): Moment About a Point (2D)7 min16.3.4. Example 2: Moment About a Point (2D) - M = Fd 11 min16.3.5. Example: Computing Moments About a Point 16.3.6. Example: Computing Moments About a Point Example6 min16.3.7. Example: Computing Moments About a Point11 min16.3.8. Practice: Moments About a Point (2D) 7 min16.3.9. Practice: Moments About a Point (2D)13 min16.3.10. Moments About a Point - Practice Questions (2D)16.3.11. Quiz: Moments About a Point - Practice Questions (2D)4 Qns16.3.12. Moments About a Point - Vector formulation (for 3D)16.3.13. Example 1: Moment About a Point (3D) 12 min16.3.14. Practice: Moments About a Point (3D) 10 min16.3.15. Practice: Moments About a Point (3D)6 min16.3.16. Moments About a Point - Practice Questions (3D)16.3.17. Quiz: Moments About a Point - Practice Questions (3D)2 Qns
16.4.1. Computing Moments About an Axis2 min16.4.2. Example: Computing Moments About An Axis6 min16.4.3. Practice: Moments About an Axis (Part 1)7 min16.4.4. Moments About an Axis - Practice Questions (Part 1)16.4.5. Moments About an Axis - Practice Questions (Part 2)16.4.6. Quiz: Computing Moments About on Axis1 Qn
16.5.1. Couple Moments - The Basics9 min16.5.2. Couple Moments4 min16.5.3. Couple Moments (with Example)6 min16.5.4. Example 1: Couple Moments (2D)3 min16.5.5. Example 2: Couple Moments (2D)6 min16.5.6. Practice: Couple Moments (2D)5 min16.5.7. Couple Moments Practice - 2D (New)2 min16.5.8. Quiz: Couple Moments - Quiz Practice Questions (2D)2 Qns16.5.9. Example 3: Couple Moments (3D)17 min16.5.10. Practice: Couple Moments (3D)8 min16.5.11. Couple Moments Practice - 3D (New)6 min16.5.12. Quiz: Couple Moments - 3D Quiz1 Qn
16.6.1. Reduction of System of Forces & Moments (Equivalency)9 min16.6.2. Example: Force-Moment Systems16.6.3. Example 1: Equivalency (2D) - Part 112 min16.6.4. Example 1: Equivalency (2D) - Part 27 min16.6.5. Force Moment Systems - Practice Questions16.6.6. Force Moment Systems - Practice Questions (Shifting Wrench)16.6.7. Force Moment Systems - Practice Questions (3D)16.6.8. Practice 3: Equivalency - Force-Couple (3D)14 min16.6.9. Quiz: Force-Moment Systems2 Qns
16.7.1. Distributed Loads (Common Geometric Shapes & Integration)15 min16.7.2. Distributed Loads (Integration (more))6 min16.7.3. Example: Distributed Loads (Geometric Example)16.7.4. Example: Distributed Loads - Geometric2 min16.7.5. Distributed Loads - Practice Questions (Geometric Shapes)16.7.6. Quiz: Distributed Loads - Quiz Practice Questions (Geometric Shapes)4 Qns16.7.7. Quiz: Distributed Loads Practice - Geometric Shapes Quiz2 Qns16.7.8. Quiz: Distributed Loads - Quiz Practice Questions (Geometric Shapes)4 Qns16.7.9. Example 1: Distributed Loads9 min16.7.10. Example 2: Distributed Loads11 min16.7.11. Practice 1: Distributed Loads10 min16.7.12. Practice 2: Distributed Loads10 min16.7.13. Distributed Loads - Practice Questions (Geometric Shapes)6 min16.7.14. Example: Distributed Loads (Integration Example)16.7.15. Example: Distributed Loads - Integration2 min16.7.16. Distributed Loads - Practice Questions (Integration)16.7.17. Distributed Loads - Practice Questions (Integration)4 min16.7.18. Distributed Loads Practice - Integration4 min16.7.19. Distributed Loads Practice - Integration16.7.20. Quiz: Distributed Loads Practice - Integration Quiz1 Qn16.7.21. Quiz: Distributed Loads Practice - Integration Quiz1 Qn
I Welcome
Free Activity
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Sara d
Hello, I incorrectly answered this question in my PHY151 term test and am currently preparing for my deferred final exam. The professor's answer is below. It involved a tricky amount of algebraic manipulation to get here and it would be helpful, in the future, to understand what variables I want in my equation and what I want to get rid of. Is it safe to assume that I don't want to have V1' in my equation for V2' and vice versa? Is that why I couldn't simply re-arrange my conservation of momentum equation? Also, does it matter if the particles are going in the same direction or opposite directions? Thanks!
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Will D
InstructorI’d have to see your work in getting these. But you would start with:
P before = P after
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Anonymous
could you tell me which topic corresponds to which topic of the textbook though, I think it is in 1.1-5, 12.1-12.10, 13.1-13.3, if that is the case where it ends to in Wizeprep
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Will D
Instructoragain, you should check the course syllabus and with your instructor to confirm and get the latest and most correct information for what's on the assessment and what is covered.
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Anonymous
Hi I just want to ask what topics of wizeprep EN-PH 131 are covered in the midterm exam, since I know that work and energy is not covered
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Will D
Instructoryou should check the course syllabus and with your instructor to get the latest and most correct information for this.
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Mark L
Hi, do we have videos for electromagnetism? I found it is covered in phys 142, but I can't find it.
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Will D
Instructorcan you provide a syllabus or course outline for PHYS 142 that indicates that? i'll need that to request an update to that Wizeprep resource. thx.
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Sara C
how would i solve this (7.95924 x 10^-5 km/s + 3.4456 x 10^-4 km/s) (1.31 x 10^7)
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Will D
Instructorhi. not seeing what the units of the "1.31x10^7" is, or if you need to keep with Sig Figs, but here's how it would go...
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Abebro Z
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Philippa N
Instructor1cm = 0.3937 inches therefore 23.3 inches will be 23.3/0.3937 cm which is 59.1cm (this is 3 significant figures).
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Anonymous
Hello, how does one go about answering a question like this? I am just studying for the final and can't seem to get the correct answer no matter the option I try.
Thank you
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Mohammad M
InstructorHello, we usually only answer questions regarding the problems we have in Wize courses but I can give you some hint how to approach this problem :)
The maximum of the status friction is equal to mu_s*N which is in this case mu_s*mgCos(theta). As long as the downward force acting on the mass I less than this number, it does not move and it remains in the static equilibrium. There is already a downward force of gravity with the size of mg*Sin(theta) along the surface acting on the mass. So, the difference between the maximum static friction and this force is the largest possible T on the mass to keep it still in the static equilibrium. I hope it helps.
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Alexis C
Do you typically notice a interest deficit between genders?
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Mohammad M
InstructorNot at all.
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Alexis C
How competitive are physics majors in college?
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Mohammad M
InstructorAs long as I know, it is not that difficult to get admission in physics. But, it is definitely challenging to good grades in physics :)
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Alexis C
Do you believe the conceptual or the mathematical aspect of physics is more difficult for students to comprehend?
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Mohammad M
InstructorThe conceptual part is definitely the hardest part. Learning the mathematical part is easy, but if you don't understand the concept behind the equations they are useless!
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Matthew M
Why is physics important?
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Mohammad M
InstructorYou can see and use physics in your daily life. It has happened a lot to me to solve a problem that I have encountered in my life with laws of Physics :) Also, physics is looking for some of the most fundamental questions that human being has been always curious about such as the origin of the world. Finally, If you understand laws of nature, you can harness them to create new technology and make our life more pleasant. All engineers have root in physics :)
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Matthew M
How many people study physics?
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Mohammad M
InstructorA lot :)
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Matthew M
Whats the best college for physics?
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Mohammad M
InstructorIt is hard to say what is the best university in all aspects of physics. However, my favourite one is Harvard :)
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Matthew M
What jobs are associated with physics?
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Mohammad M
InstructorIt really depends on the special field of physics you are working in. There is wide range, from university prof to a researcher at a private company to an astronaut :)
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Matthew M
How long does this take to learn?
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Mohammad M
InstructorA lifetime :)
Welcome to Physics 1!
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