Starting a new Lecture Notes Series on Physics - Statics & Equilibrium
Youtube Lecture Playlist CreditsChannel Name: Michel van BiezenFaculty Name: Michel van Biezen Sir
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Physics - Statics & Equilibrium
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Lecture 1: What is Tension?
Lecture 2: What is Weight?
Lecture 3: Tension and Moving Objects - 1
Lecture 4: Tension and Moving Objects - 2
Lecture 5: Tension and Moving Objects - 3
Lecture 6: Tension and Moving Objects - 4
Lecture 7: Tension and Moving Objects - Conceptual
Lecture 8: Tension=? when "a" is Not Known - 1
Lecture 9: Tension=? when "a" is Not Known - 2
Lecture 10: Tension=? when "a" is Not Known - 3
Lecture 11: Tension=? when "a" is Not Known - 4
Lecture 12: Statics: Example 3
Lecture 13: Statics: Example 2
Lecture 14: Third Law: Example 5
Lecture 15: Third Law: Example 4
Lecture 16: Third Law: Example 2
Lecture 17: Third Law: Example 1
Lecture 18: Addition of Forces - Graphically
Lecture 19: Addition of Forces - Component
Lecture 20: Net Force = 0
Lecture 21: Beam Under Tension
Lecture 22: Beam and Cable Under Tension
Lecture 23: Worker Pulling on Mass Hanging from Crane
Lecture 24: Tension of Cables Attached to Hanging Objecte
Lecture 25: Attached Beam Under Compression
Lecture 26: Forces on a Bracket
Lecture 27: Cable Tension on a Gondola
Lecture 28: Why are Pulleys a Mechanical Advantage?
Lecture 29: Pulleys and Mechanical Advantage
Lecture 30: Pulleys and Mechanical Advantage
Lecture 31: Vectors in 3-Dimensions Explained
Lecture 32: What Are Direction Cosines?
Lecture 33: Determining Angles in 3-Dimension
Lecture 34: Determining Angles in 3-Dimension
Lecture 35: Determining Angles & Tension in 3-Dimension
Lecture 36: Determining Tension in 3-D of a Hanging Disc
Lecture 37: Introduction
Lecture 38: Forces & Moments at Connections 1
Lecture 39: Forces & Moments at Connections 2
Lecture 40: Forces & Moments at Connections 3
Lecture 41: Finding Contact Forces
Lecture 42: Find F=? M=? Ex.1, 2-Dimensions
Lecture 43: Find Forces=? Ex.2, 2-Dimensions
Lecture 44: Find F=? T=? Ex.3, 2-Dimensions
Lecture 45: Find F=? M=? Ex.4, 2-Dimensions
Lecture 46: Find F=? T1=? T2=? Ex.5, 2-Dimensions
Lecture 47: Find F@A=? F@B=? T=? Ex.6, 2-D
Lecture 48: Find Constrained? Equilibrium=? F=?
Lecture 49: Find Constrained? Equilibrium=? F=?
Lecture 50: Find Constrained? Equilibrium=? F=?
Lecture 51: Find Constrained? Equilibrium=? F=?
Lecture 52: Equilibrium of 3-Force Body
Lecture 53: Ex. 1 Eq. of 3-Force Body
Lecture 54: Ex. 2 Eq. of 3-Force Body
Lecture 55: Ex. 3 Eq. of 3-Force Body
Lecture 56: Ex. 4 Eq. of 3-Force Body
Lecture 57: Ex. 5 Eq. of 3-Force Body
Lecture 58: Ex. 6 Eq. of 3-Force Body
Lecture 59: 3-D Set 1: 1 Force
Lecture 60: 3-D Set 2: 2 Force Components
Lecture 61: 3-D Set 3: 3 Force Components
Lecture 62: 3-D: Universal Joint
Lecture 63: 3-D: The Fixed Post
Lecture 64: 3-D: Hinge & Bearing Support 1
Lecture 65: 3-D: Hinge & Bearing Support 2
Lecture 66: Equilibrium in 3-D Ex. 1***