A dynamic lunar eclipse lamp is provided, which includes a blocking piece including a transparent area and a circular opaque area, the opaque area is provided at a non-central position of the blocking piece; an imaging lens provided on one side of the blocking piece, one end of the imaging lens is provided with a Fresnel lens, a non-central position on the Fresnel lens is provided with an image, and the imaging lens is configured to project the image onto a non-central position on the blocking piece, a position of the image projected by the imaging lens corresponds to a position of the opaque area on the blocking piece; a rotary drive component connected to the Fresnel lens and configured to drive the Fresnel lens to rotate; and a light source component, the lamp is caused to form a lunar eclipse effect, a crescent or a half-moon display effect.

A planetary learning device is provided. The device is comprised of a body that may take various geometric shapes resembling celestial objects, such as planets or stars, and may incorporate phosphorescent materials and LEDs for simulating natural celestial phenomena. The device also includes at least one speaker for providing audio content related to the celestial object, with facts or scientific data being played via a removable memory card or streamed wirelessly. The body can be charged through a docking station, which may include a rotating platform to simulate planetary motion. Additionally, the device features sensors for interactive functionality and may include an augmented reality application for enhanced learning. A vibration motor can further simulate seismic activity or gravitational forces, offering an immersive educational experience.

A planetary learning device is provided. The device is comprised of a body that may take various geometric shapes resembling celestial objects, such as planets or stars, and may incorporate phosphorescent materials and LEDs for simulating natural celestial phenomena. The device also includes at least one speaker for providing audio content related to the celestial object, with facts or scientific data being played via a removable memory card or streamed wirelessly. The body can be charged through a docking station, which may include a rotating platform to simulate planetary motion. Additionally, the device features sensors for interactive functionality and may include an augmented reality application for enhanced learning. A vibration motor can further simulate seismic activity or gravitational forces, offering an immersive educational experience.