Chapter 1 : Basic Principle in Biomechanics ⎥2025

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• 1 10.Center of Mass (19:05) Preview
• 2 11. Center of Resistance (15:31) Start
• 3 12.Handling of Force (17:12) Start
• 4 13.Center of Rotation (20:22) Start
• 5 14.Type of Tooth Movement (16:17) Start
• 6 15.Moment of Force and Moment of Couple (14:35) Start
• 7 16.Moment of Force (14:38) Start
• 8 17. Moment of Couple (14:46) Start
• 9 18.Mc and Clinical Application (14:21) Start
• 10 19.Force System (14:07) Preview
• 11 20.Equivalent Force System (12:54) Start
• 12 1.Force System and Clinical Application (16:10) Start
• 13 2.Equivalent Force System and Clinical Application (12:00) Start
• 14 3.Moment Force Ratio (8:05) Start
• 15 4.M/F Ratio and Crot (14:18) Start
• 16 5.M/F Ratio and Type of Tooth Movement (13:46) Start
• 17 6.Type of Tooth Movement Classification (16:40) Start
• 18 7. Clinical situation of Static Equilibrium 1 (10:54) Start
• 19 8.Clinical situation of Static Equilibrium 2 (11:16) Start
• 20 9.Clinical situation of Static Equilibrium 3 (11:48) Preview
• 21 10.Clinical situation of Static Equilibrium 4 (19:12) Start
• 22 11.Clinical situation of Static Equilibrium 5 (11:18) Start
• 23 12.Clinical situation of Static Equilibrium 6 (9:24) Start

  Chapter 2 : Creative Wire Bending ⎥2025

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• 24 13 Introduction (14:38) Preview
• 25 14.One Couple Force System (15:05) Start
• 26 15.Two Couple Force System 1 (10:27) Start
• 27 16.Two Couple Force System 2 (11:21) Start
• 28 17.Multiple Couple Force System (12:42) Start
• 29 18. TYPE OF BASIC CREATIVE WIRE BENDING (10:54) Start
• 30 19.Creative V-Bend Analysis (9:10) Start
• 31 20 Creative V-Bend Analysis 2 (13:20) Start
• 32 1.Creative V-Bend Analysis 3 (9:35) Start
• 33 2. Creative V-Bend Analysis 4 (11:51) Preview
• 34 3.Step Bend (11:14) Start
• 35 4.V-S Bend (10:59) Start
• 36 5.Equilibrium and V-S Bend (9:59) Start
• 37 6.Clinical Application 1 (19:51) Start
• 38 7.Clinical Application 2 (12:09) Start
• New Lesson Start

  Chapter 3 : Loop amd Spring Design ⎥2025

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• 39 1 Introduction (12:18) Preview
• 40 2. Type of Spring and Loop (16:07) Start
• 41 3. T-Loop (17:45) Start
• 42 4. Neutral Activation (14:23) Start
• 43 5. Clinical Application (19:27) Start

  Chapter 4 : Anchorage ⎥2025

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• 44 6.Introduction (11:42) Preview
• 45 7. Concept of Anchorage 1 (15:19) Start
• 46 8 Concept of Anchorage 2 (14:05) Start
• 47 9. Anchorage Concept Summary (12:37) Start
• 48 10.Anchorage Management and SCA (17:21) Start
• 49 11.Type of Anchorage (13:51) Start
• 50 12.Anchorage Classification (12:40) Preview
• 51 13. Clinical Application (16:20) Start
• 52 14. Clinical Application-Anchorage Requirement (18:55) Start
• 53 15.Clinical Application-Anchorage Requirement 2 (12:16) Start
• 54 16.Anchorage Requirement - Crowding (9:38) Start
• 55 1.Anchorage Requirement - U1 Inclination (15:42) Start
• 56 2.Anchorage Requirement U1 Inclination 2 (16:38) Start
• 57 3.Anchorage Requirement - Midline deviation (7:04) Start
• 58 4.Anchorage Requirement - Occlusal Relationship (18:23) Start
• 59 5.Anchorage Requirement - Force Require to move tooth (12:14) Start
• 60 6.Source of Anchorage (16:32) Start
• 61 7. Source of Anchorage - Biomechanic (17:05) Start
• 62 8.Source of Anchorage - Stop and loop (13:24) Start
• 63 9. The Response Anchor Unit and Movement Unit to Orthodontic Force (10:30) Start
• 64 10. Source of Anchorage - Biological Properties (15:50) Start
• 65 11. Source of Anchorage - Growth (15:11) Start
• 66 12.Source of Anchorage - FA (16:45) Start
• 67 13.Source of Anchorage - Sliding or non sliding mechanic (20:44) Start

  Chapter 5 : Friction ⎥2025

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• 68 14.Introduction (14:53) Preview
• 69 15.Friction-affecting parameter (11:40) Start
• 70 16. Force delivery (12:47) Start
• 71 17 . Anchorage - Summary (17:08) Start
• 72 9.Friction -Type of friction (16:59) Start
• 73 10.Friction - Critical Angle (13:39) Start
• 74 11.Friction -How to avoid binding effect?? (16:06) Preview
• 75 12.FRiction - Clinical Application (17:13) Start
• 76 13.Friction - Ligation (13:10) Start
• 77 14.Slot Size and Wire (7:46) Start

  Chapter 6 : Biology of Tooth Movement ⎥2025

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• 78 2 Introduction (15:22) Preview
• 79 3.Theory of Tooth Movement (14:40) Start
• 80 4.Physiologic Response to Sustained Force (11:18) Start
• 81 5.Physiologic Response to-Light Force vs Heavy Force (17:31) Start
• 82 6.Physiologic Response to Force Decay (12:31) Preview
• 83 7.Clinical Application (10:06) Start
• 84 8.Medical Disorder to Orthodontic Force (11:14) Start
• 85 15.FAQ (18:47) Start

  8 Selective Alveolar (De)corticotomy 2021

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• 68 Introduction to SAD (13:40) Start
• 69 Rapid Accelerated Phenomenon (RAP) (13:43) Start
• 70 Window of opportunity from SAD (16:59) Start
• 71 The Design of Decortication (10:31) Start
• 72 Conclusion (14:36) Start

  Hand out (Download) 2021

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• 9.1 basic principle (20) AVS 4 PDF Preview
• 9.3 & 9.4 loop design & sliding non sliding mech (22) AVS PDF Start
• 9.5 anchorage (23) AVS 4 PDF Start
• 9.6 biologic (24) AVS 4 PDF Start
• 9.7 SAD PDF Start
• 9.8 Biomech Upright molar (25) AVS 4 PDF Start

  ติว ก่อนสอบ ⎥2021

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• 1 Moment of force (10:01) Preview
• 2 Force system (10:29) Preview
• 3 M/F ratio (10:54) Start
• 4 Segmented arch (9:08) Start
• 5 Continuous arch FS calculation (11:19) Start
• 6 Equivalent force system (11:57) Preview
• 7 Anchorage (10:02) Start
• 8 Anchorage Classification (16:31) Start
• 9 Friction (20:07) Start
• 10 Clinical Application. (17:37) Start

  Chapter 1 : Basic Principle in Biomechanics ⎥2023

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days after you enroll

• 1 Rule of Mass (26:15) Preview
• 2 Forces Concept in Orthodontics (24:46) Start
• 3 Type of Tooth Movement (21:02) Start
• 4 Moment of Forces (24:31) Start
• 5 Moment of Couple (21:43) Start
• 6 Force System and Equivalent force System (27:04) Start
• 7 Moment to Force Ratio (26:57) Start
• 8 Static Equilibrium (30:18) Start
• 9 Static Equilibrium 2 and example (18:25) Start
• 1 Rule of Mass (26:15) Start
• 2 Forces Concept in Orthodontics (24:46) Preview
• 3 Type of Tooth Movement (21:02) Start
• 4 Moment of Forces (24:31) Start
• 5 Moment of Couple (21:43) Start
• 6 Force System and Equivalent force System (27:04) Start
• 7 Moment to Force Ratio (26:57) Start
• 8 Static Equilibrium (30:18) Start
• 9 Static Equilibrium 2 and example (18:25) Preview

  Chapter 2 : The Creative Wire Bending in Orthodontics ⎥2023

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• 10 Creative V-Bend Wire Bending (52:02) Preview
• 11 Bending free & The fact of V- Bend (24:52) Start
• 12 Classification of Force System (37:06) Start
• 13 Exercise for V-Bend Application (27:27) Start
• 10 Creative V-Bend Wire Bending (52:02) Start
• 11 Bending free & The fact of V- Bend (24:52) Start
• 12 Classification of Force System (37:06) Start
• 13 Exercise for V-Bend Application (27:27) Preview

  Chapter 3 : Loop and Spring Design ⎥2023

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days after you enroll

• 14 Principle of Spring Design (16:28) Preview
• 15 Loop Classification and Experiment (38:19) Start
• 16 Sliding vs Non-Sliding (11:27) Start
• 17 Friction (28:11) Start
• 18 Friction Management (19:49) Start
• 14 Principle of Spring Design (16:28) Start
• 15 Loop Classification and Experiment (38:19) Start
• 16 Sliding vs Non-Sliding (11:27) Preview
• 17 Friction (28:11) Start
• 18 Friction Management (19:49) Start

  Chapter 4 : Anchorage in Orthodontics ⎥2023

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days after you enroll

• 19 Anchorage Concept (30:28) Preview
• 20 Anchorage Classification and Objective (12:56) Start
• 21 Determinant of Anchorage Requirement (24:16) Start
• 22 Source of Anchorage (36:01) Start
• 19 Anchorage Concept (30:28) Start
• 20 Anchorage Classification and Objective (12:56) Start
• 21 Determinant of Anchorage Requirement (24:16) Start
• 22 Source of Anchorage (36:01) Preview

  Chapter 5 : Biologic Basis of Orthodontic Therapy ⎥2023

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days after you enroll

• 23 Tooth Supporting Tissue and The Theories of Tooth Movement (38:51) Preview
• 25 Physiologic response to sustained force against a tooth (13:52) Start
• 26 Tooth movement efficiency & duration of force (18:28) Start
• 27 Relevant Medical Disorders to Orthodontic Force & Theories of tooth eruption (19:44) Start
• 24 Active Stabilizer (8:04) Preview
• 23 Tooth Supporting Tissue and The Theories of Tooth Movement (38:51) Start
• 25 Physiologic response to sustained force against a tooth (13:52) Start
• 26 Tooth movement efficiency & duration of force (18:28) Start
• 27 Relevant Medical Disorders to Orthodontic Force & Theories of tooth eruption (19:44) Start
• 24 Active Stabilizer (8:04) Start

  Hand out ⎥2023

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days after you enroll

• 1 Basic Principle Mechanic Preview
• 2 Creative Wire V-bend Start
• 3 Loop & Spring Design Start
• 4 Hand out of Anchorage in Orthodontics Start
• 5 Biologic Basis of Orthodontic Therapy Start
• 1 Basic Principle Mechanic Start
• 2 Creative Wire V-bend Start
• 3 Loop & Spring Design Start
• 4 Hand out of Anchorage in Orthodontics Start
• 5 Biologic Basis of Orthodontic Therapy Start

  7.1 Creative V-bend 2023

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• 7.21 Introduction (13:51) Preview
• 7.22 Force system (16:39) Start
• 7.23 One couple force system (21:53) Start
• 7.24 Two couple force system (19:49) Start
• 7.25 Multiple couple force system (10:56) Start
• 7.26 Type of basic creative v-bend (14:37) Start
• 7.27 Creative V-bend analysis (19:05) Start
• 7.28 Step bend (12:26) Start
• 7.29 VS Bend (12:42) Start
• 7.30 VS Bend 2 (14:04) Start
• 7.31 Combination of step bend and v-bend (17:24) Start
• 7.32 V-bend analysis (14:45) Preview
• 7.33 Static equilibrium (13:55) Start
• 7.34 Static equilibrium and v-bend (16:38) Start
• 7.35 Summary of v-bend static equilibrium (13:52) Start
• 7.36 Clinical application (18:20) Start
• 7.37 Clinical application (11:05) Start
• 7.21 Introduction (13:51) Start
• 7.22 Force system (16:39) Start
• 7.23 One couple force system (21:53) Start
• 7.24 Two couple force system (19:49) Start
• 7.25 Multiple couple force system (10:56) Start
• 7.26 Type of basic creative v-bend (14:37) Start
• 7.27 Creative V-bend analysis (19:05) Start
• 7.28 Step bend (12:26) Start
• 7.29 VS Bend (12:42) Start
• 7.30 VS Bend 2 (14:04) Start
• 7.31 Combination of step bend and v-bend (17:24) Start
• 7.32 V-bend analysis (14:45) Start
• 7.33 Static equilibrium (13:55) Start
• 7.34 Static equilibrium and v-bend (16:38) Start
• 7.35 Summary of v-bend static equilibrium (13:52) Start
• 7.36 Clinical application (18:20) Preview
• 7.37 Clinical application (11:05) Preview

  *** V-Bend PDF 2023

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• Creative V-bend Start
• Creative V-bend Start

  7 Biomechanics 2023

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• 7.1 Introduction (16:03) Preview
• 7.2 Center of mass (10:53) Start
• 7.3 Center of resistance (11:20) Start
• 7.4 Force (12:23) Start
• 7.5 Handling of force (14:50) Start
• 7.6 Line of force (18:41) Start
• 7.7 Center of rotation (21:19) Start
• 7.8 Moment of force and moment of couple 1 (15:42) Start
• 7.9 Moment of force and moment of couple 2 (10:11) Start
• 7.10 Moment of force (20:16) Start
• 7.11 Moment of couple (22:52) Start
• 7.12 Mc in Removable appliance (12:12) Start
• 7.13 Force system (14:47) Start
• 7.14 Equivalent force system (12:19) Start
• 7.15 M/F ratio (20:48) Preview
• 7.16 Static equilibrium (11:13) Start
• 7.17 Pre torque (10:30) Start
• 7.18 Clinical app 1 (12:16) Start
• 7.19 Clinical app 2 (13:41) Start
• 7.20 Clinical app 3 (7:58) Start
• 7.1 Introduction (16:03) Start
• 7.2 Center of mass (10:53) Start
• 7.3 Center of resistance (11:20) Start
• 7.4 Force (12:23) Start
• 7.5 Handling of force (14:50) Start
• 7.6 Line of force (18:41) Start
• 7.7 Center of rotation (21:19) Start
• 7.8 Moment of force and moment of couple 1 (15:42) Start
• 7.9 Moment of force and moment of couple 2 (10:11) Start
• 7.10 Moment of force (20:16) Start
• 7.11 Moment of couple (22:52) Start
• 7.12 Mc in Removable appliance (12:12) Start
• 7.13 Force system (14:47) Start
• 7.14 Equivalent force system (12:19) Start
• 7.15 M/F ratio (20:48) Start
• 7.16 Static equilibrium (11:13) Start
• 7.17 Pre torque (10:30) Preview
• 7.18 Clinical app 1 (12:16) Start
• 7.19 Clinical app 2 (13:41) Start
• 7.20 Clinical app 3 (7:58) Start

  7.2 Lopp and spring design 2023

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• 7.38 Loop and spring design (17:57) Preview
• 7.39 Moment force ratio (15:45) Start
• 7.40 Spring objectives (19:27) Start
• 7.41 T- loop (19:32) Start
• 7.42 T-loop adjustment (14:58) Start
• 7.43 Neutral Activation (19:39) Start
• 7.44 Sliding and non-sliding mechanics (13:58) Start
• 7.45 Comparison (14:23) Start
• 7.38 Loop and spring design (17:57) Start
• 7.39 Moment force ratio (15:45) Start
• 7.40 Spring objectives (19:27) Start
• 7.41 T- loop (19:32) Start
• 7.42 T-loop adjustment (14:58) Start
• 7.43 Neutral Activation (19:39) Start
• 7.44 Sliding and non-sliding mechanics (13:58) Start
• 7.45 Comparison (14:23) Preview

  7.3 Friction 2023

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• 7.46 Introduction (11:35) Preview
• 7.47 Type of friction (12:02) Start
• 7.48 Bracket and friction (13:17) Start
• 7.49 Slot width and width (13:54) Start
• 7.50 Force delivery (11:40) Start
• 7.51 Friction in SL (10:50) Start
• 7.52 SL and normal bracket (14:44) Start
• 7.53 Binding effect (12:15) Start
• 7.54 Secure ligation (11:43) Start
• 7.46 Introduction (11:35) Start
• 7.47 Type of friction (12:02) Start
• 7.48 Bracket and friction (13:17) Start
• 7.49 Slot width and width (13:54) Start
• 7.50 Force delivery (11:40) Start
• 7.51 Friction in SL (10:50) Start
• 7.52 SL and normal bracket (14:44) Start
• 7.53 Binding effect (12:15) Start
• 7.54 Secure ligation (11:43) Preview

  7.4 Anchorage in orthodontics 2023

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• 7.55 Introduction (19:12) Start
• 7.56 Anchorage concept (17:34) Preview
• 7.57 Anchorage concept 2 (9:11) Start
• 7.58 Bio-reengineering (13:18) Start
• 7.59 Anchorage Classification (15:41) Start
• 7.60 Space gaining (9:46) Start
• 7.61 Anchorage Requirement (18:39) Start
• 7.62 Source of Anchorage (13:47) Start
• 7.63 Anchorage Management (17:48) Start
• 7.64 Skeletal anchorage (12:30) Start
• 7.65 Anchorage Supplement (14:58) Start
• ***Anchorage PDF 2023 Start
• 7.55 Introduction (19:12) Start
• 7.56 Anchorage concept (17:34) Start
• 7.57 Anchorage concept 2 (9:11) Start
• 7.58 Bio-reengineering (13:18) Start
• 7.59 Anchorage Classification (15:41) Start
• 7.60 Space gaining (9:46) Preview
• 7.61 Anchorage Requirement (18:39) Start
• 7.62 Source of Anchorage (13:47) Start
• 7.63 Anchorage Management (17:48) Start
• 7.64 Skeletal anchorage (12:30) Start
• 7.65 Anchorage Supplement (14:58) Start
• ***Anchorage PDF 2023 Start

  7.5 Biology of tooth movement 2023

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• 7.66 Biology of tooth movement (12:52) Start
• 7.67 Movement direction (12:24) Preview
• 7.68 Active Stabilization (17:06) Start
• 7.69 Tooth movement and duration of force (18:08) Start
• 7.70 Tooth movement acceleation (15:29) Start
• 7.71 Reduced treatment time (15:08) Start
• 7.72 SAC (19:16) Start
• *** Stimulating biological response PDF Start
• 7.66 Biology of tooth movement (12:52) Start
• 7.67 Movement direction (12:24) Start
• 7.68 Active Stabilization (17:06) Start
• 7.69 Tooth movement and duration of force (18:08) Start
• 7.70 Tooth movement acceleation (15:29) Start
• 7.71 Reduced treatment time (15:08) Start
• 7.72 SAC (19:16) Preview
• *** Stimulating biological response PDF Start

  7.6 Upright molar 2023

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• 7.73 Mandibular uprighting (16:30) Preview
• 7.74 Clinical Application (14:34) Start
• 7.75 Open space (25:45) Start
• *** Upright molar PDF Start
• 7.73 Mandibular uprighting (16:30) Start
• 7.74 Clinical Application (14:34) Start
• 7.75 Open space (25:45) Preview
• *** Upright molar PDF Start