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Physics Demonstrations in Mechanics - Part 1 Media: DVD - 35 minutes Shipped in 7 days Cat.# PCI-8D $120.00 BUY Media: PAL Video - 35 minutes Shipped in 7 days Cat.# PCI-8P $110.00 BUY

Physics Demonstrations in Mechanics is a two-part video program which presents a full range of physical demonstrations in the area of mechanics. The program was developed in an effort to give physics teachers a collection of video demonstrations to supplement their live classroom demonstrations. The program was designed to meet the needs of high school physics classes as well as introductory level college physics classes.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 1: Uniform and Accelerated Motion: Position-Time Observations (Stroboscopic Photography), Gravitational Acceleration: Determination of g (Stroboscopic Photography), Projectile Motion: Simultaneous Fall (Stroboscopic Photography), Projectile Motion: Monkey and Hunter, Projectile Motion: Trajectory of a Projectile (Stroboscopic Photography), Circular Motion: Direction of Centripetal Force, Circular Motion: Centrifugal Effects on Rotating Sphere, Circular Motion: Motion in a Vertical Plane, Conservation of Energy: Minimum Critical Velocity on a Vertical Loop, Work and Conservation of Energy: Energy Transformations on a Double Incline.

Physics Demonstrations in Mechanics - Part 2 Media: DVD - 35 minutes Shipped in 7 days Cat.# PCI-9D $120.00 BUY Media: PAL Video - 35 minutes Shipped in 7 days Cat.# PCI-9P $110.00 BUY

Physics Demonstrations in Mechanics is a two-part video program which presents a full range of physical demonstrations in the area of mechanics. The program was developed in an effort to give physics teachers a collection of video demonstrations to supplement their live classroom demonstrations. The program was designed to meet the needs of high school physics classes as well as introductory level college physics classes.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 2: Newton’s 1st Law: Rest Inertia of Massive Ball, Newton’s 2nd Law: Effects of a Varied Net Force on a Body’s Motion, Newton’s 3rd Law: Reaction Cart/Projected Ball Bearings, Terminal Velocity: Air Resistance Acting on a Free-Falling Body (Stroboscopic Photography), Motion of Centre of Mass: System with Internally Moving Components, Motion of Centre of Mass: Projected Boomerang & Tennis Racket (Stroboscopic Photography), Conservation of Momentum: Determination of a Bullet’s Velocity, Conservation of Momentum: Internal Explosion, Conservation of Angular Momentum: System of Rotating Spheres, Free-Fall Paradox: Falling Chimney, Centre of Percussion: Impulsive Forces Delivered to a Baseball Bat.

Bundles Cat.# PCI-8 and PCI-9.

Physics Demonstrations in Mechanics - Part 3 Media: DVD - 30 minutes  Shipped in 7 days Cat.# PCI-11D $120.00 BUY Media: PAL Video - 30 minutes Shipped in 7 days Cat.# PCI-11P $110.00 BUY

Physics Demonstrations in Mechanics is a four-part video series presenting a full range of demonstrations in linear motion, two-dimensional motion, Newton’s laws of motion, momentum, work & energy, and gravitation. Similar in format to Demonstrations in Mechanics Parts I & II, this more recent series (Parts III through VI) significantly broadens and enhances the collection of mechanics demonstrations. The program’s strength lies in the use of specialized apparatus, high-speed photography, and 3D computer animation.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 3: Graphical Analysis of Motion: Car Accelerating on Highway (Computer Animation), Vector Addition: Object Travelling on Moving Surface, Velocity and Acceleration Vectors: Direction of v and a during Acceleration and Deceleration, Newton’s 1st Law: Rest Inertia of Bursting Water Balloon; Shattering Flask; and Concrete Block Receiving Sharp Blow (High Speed Film), Newton’s 1st Law: Motion Inertia of Steel Wedge Splitting Board; Ketchup Cart (High Speed Film), Frame of Reference: A Galactic Observer/Relative Motion (Computer Animation), Frame of Reference: Inertial and Non-inertial Reference Frames.

Physics Demonstrations in Mechanics - Part 4 Media: DVD - 30 minutes Shipped in 7 days Cat.# PCI-12D $120.00 BUY Media: PAL Video - 30 minutes  Shipped in 7 days Cat.# PCI-12P $110.00 BUY

Physics Demonstrations in Mechanics is a four-part video series presenting a full range of demonstrations in linear motion, two-dimensional motion, Newton’s laws of motion, momentum, work & energy, and gravitation. Similar in format to Demonstrations in Mechanics Parts I & II, this more recent series (Parts III through VI) significantly broadens and enhances the collection of mechanics demonstrations. The program’s strength lies in the use of specialized apparatus, high-speed photography, and 3D computer animation.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 4: Fundamental Forces: Gravitational, Electromagnetic, Strong, and Weak Forces (Computer Animation), Mass and Weight: Weightlessness during Free-fall, Newton’s 2nd Law: Force and Acceleration of a Rocket Powered Car, Newton’s 3rd Law: Action-Reaction Forces of a Liquid Nitrogen Cannon, Newton’s 2nd and 3rd Laws: Helicopter Dynamics, Force Components: Perpendicular Force Applied to Tension Cable, Newton’s Law of Universal Gravitation: Cavendish Experiment (Time Lapse Film).

Physics Demonstrations in Mechanics - Part 5 Media: DVD - 30 minutes Shipped in 7 days Cat.# PCI-13D $120.00 BUY Media: PAL Video - 30 minutes Shipped in 7 days Cat.# PCI-13P $110.00 BUY

Physics Demonstrations in Mechanics is a four-part video series presenting a full range of demonstrations in linear motion, two-dimensional motion, Newton’s laws of motion, momentum, work & energy, and gravitation. Similar in format to Demonstrations in Mechanics Parts I & II, this more recent series (Parts III through VI) significantly broadens and enhances the collection of mechanics demonstrations. The program’s strength lies in the use of specialized apparatus, high-speed photography, and 3D computer animation.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 5: Projectile Motion: Ballistics Cart/Horizontal Components of Motion, Projectile Motion: Trajectory and Range Analysis, Circular Motion: Centripetal Force and Tangential Velocity, Circular Motion: Unique Behaviour of a Rotating Chain, Impulse and Momentum: Egg Impacting Rigid Surface and Water Column (High Speed Film), Characteristics of Collisions: Elastic and Inelastic Collisions, Elastic Collision: Duration and Magnitude of Impact Forces.

Physics Demonstrations in Mechanics is a four-part video series presenting a full range of demonstrations in linear motion, two-dimensional motion, Newton’s laws of motion, momentum, work & energy, and gravitation. Similar in format to Demonstrations in Mechanics Parts I & II, this more recent series (Parts III through VI) significantly broadens and enhances the collection of mechanics demonstrations. The program’s strength lies in the use of specialized apparatus, high-speed photography, and 3D computer animation.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on mechanics. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those which require apparatus which is not accessible to many physics teachers. Detailed observation for many of the demonstrations is accomplished through use of the following photographic techniques: Stroboscopic photography, slow motion/stop action photography, full screen and over screen graphics, and close-ups of experimental apparatus.

Contents of Part 6: Conservation of Momentum: Strobe Analysis of Two-Dimensional Collisions, Motion of Centre of Mass: Rigid and Non-Rigid Bodies, Work and Energy: Work Performed by Falling Mass (High Speed Film), Work and Energy: Quantitative Analysis of Bow & Arrow System, Rotational Dynamics: Behaviour of a Gyroscope, Physics Teasers/ Predict the Outcome: A Collection of Puzzling Physical Events.

Includes Cat.# PCI-11, Cat.# PCI-12, Cat.# PCI-13, Cat.# PCI-14

Physics Demonstrations in Heat - Part 1 Media: DVD - 30 minutes Shipped in 7 days Cat.# PCI-16D $120.00 BUY Media: PAL Video - 30 minutes Shipped in 7 days Cat.# PCI-16P $110.00 BUY

Physics Demonstrations in Heat is a three-part video program which presents a full range of demonstrations in thermal properties of matter, mechanisms of heat transfer, and thermodynamics. The program was developed in an effort to give physics teachers a comprehensive collection of video demonstrations, supplementing the instructor’s live classroom demonstrations. Instructors will find the program suitable for high school as well as introductory level college physics classes.

Program Format
Individual demonstrations are 3 to 4 minutes in length and can be quickly accessed using the program's on-screen indexing system. The indexing system allows the teacher to select a particular demonstration and show it at the appropriate time during a unit on thermal energy. The accompanying teacher’s guide gives additional data, information, and suggestions on using the demonstrations to promote further classroom discussion.

Demonstration Selection and Filming Techniques
The selection of demonstrations includes those which are difficult to perform in the classroom and those requiring apparatus not readily accessible to many physics teachers. Detailed observation of the demonstrations is accomplished through use of a filming approach which focuses solely on the apparatus, allowing the teacher to utilize the program in a way which is consistent with his or her personal instructional approach. The voice over narration eliminates the on-screen presenter and allows attention to be directed to the physical behavior being studied.

Contents of Part 1: Thermal Expansion: Changing Volume of a Liquid, Phase Change Expansion:, Exploding Ice Bomb, Thermal Expansion: Forces Exerted During Expansion and Contraction, Linear Expansion: Determination of Expansion Coefficient, Phase Changes: Transition from Gaseous to Liquid O₂, Cryogenics: Changes in Material Properties, Cryogenics: Organic Materials, Specific Heat: Determination of C_p