FOUCAULT'S PENDULUM Antique Globe1970-01-01T00:00:00+00:00Foucault's pendulums are positioned at the poles, equator, and at 30 and 60 degrees north and south. At the poles, the swing remains the same relative to the camera and the pendulum precesses 360 degrees in one revolution of the planet (one day). The p...PT60Shttps://d38zjy0x98992m.cloudfront.net/e3a21053-b6a3-4ceb-a5a6-fe0e7f01c3b0/FOUCAULT_S_PENDULUM_Paper_265_xlarge.jpghttps://d38zjy0x98992m.cloudfront.net/e3a21053-b6a3-4ceb-a5a6-fe0e7f01c3b0/FOUCAULT_S_PENDULUM_Paper_265_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/physics/-/medias/e3a21053-b6a3-4ceb-a5a6-fe0e7f01c3b0/pricehttps://www.scientific.pictures/-/galleries/physics/-/medias/e3a21053-b6a3-4ceb-a5a6-fe0e7f01c3b0/price
PENDULUM Double Showing Potential & Kinetic Energy
Two pendulums swing with their weights having maximum potential energy (blue) at the highest points. All the potential energy is converted to kinetic (moving) energy (red) at the lowest point, where the two weights collide. The weights bounce off each other and swing back up, converting their kinetic energy (red) to potential energy (blue) again.
PENDULUM Double Showing Potential & Kinetic Energy2023-01-31T05:55:51ZTwo pendulums swing with their weights having maximum potential energy (blue) at the highest points. All the potential energy is converted to kinetic (moving) energy (red) at the lowest point, where the two weights collide. The weights bounce off each ...PT30Shttps://d38zjy0x98992m.cloudfront.net/e5e5b50c-c5fa-486d-9870-6ddb6464ec06/PENDULUM_DOUBLE_Potential_Kinetic_Metallic_xlarge.jpghttps://d38zjy0x98992m.cloudfront.net/e5e5b50c-c5fa-486d-9870-6ddb6464ec06/PENDULUM_DOUBLE_Potential_Kinetic_Metallic_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/physics/-/medias/e5e5b50c-c5fa-486d-9870-6ddb6464ec06/pricehttps://www.scientific.pictures/-/galleries/physics/-/medias/e5e5b50c-c5fa-486d-9870-6ddb6464ec06/price
SINE COSINE WAVES on Graph Paper with Wheel1970-01-01T00:00:00+00:00Animation of a sine wave or sinusoidal wave (sine curve or sine function) and its corresponding cosine wave
SINE WAVES (y = sin x) are ubiquitous. They represent the behaviour of a simple oscillator. This animation illustrates the relationship between...PT32Shttps://d38zjy0x98992m.cloudfront.net/f4b2af4f-cad3-414e-ae57-c18f6d76dcb7/SINE_COSINE_Graph_Paper_render_32s_265_xlarge.jpghttps://d38zjy0x98992m.cloudfront.net/f4b2af4f-cad3-414e-ae57-c18f6d76dcb7/SINE_COSINE_Graph_Paper_render_32s_265_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/physics/-/medias/f4b2af4f-cad3-414e-ae57-c18f6d76dcb7/pricehttps://www.scientific.pictures/-/galleries/physics/-/medias/f4b2af4f-cad3-414e-ae57-c18f6d76dcb7/price