Act now and give your space a breathable art experience! We provide a full-service solution from design and installation to maintenance. Whether you need to enhance the quality of your existing space or find a highlight for a new project, this wind-driven light and shadow installation offers the ideal solution. Please contact us for details. Tel: +86 18882709667 WhatsApp: +86 18882709667 Email: zgzqkj@gmail.com / info@zoomkingzg.com
As a bridge connecting nanotechnology and sensory experience, this exhibit allows visitors of all ages to experience the charm of materials science through interactive interaction. Children are captivated by the seemingly alive dynamics of the magnetofluid, teenagers explore the underlying electromagnetic principles, and researchers can intuitively understand the response mechanisms of smart materials under the influence of multiple physical fields. This exhibit not only showcases the extraordinary properties of cutting-edge materials but also allows visitors to personally experience how technology imbues matter with "life." As the magnetofluid finally returned to calm, the wonder and fascination with the microscopic world and smart materials were deeply imprinted in the hearts of every visitor. Inquiries from science museums, science centers, educational institutions, and art spaces are welcome. Tel: +86 18882709667 WhatsApp: +86 18882709667 Email: zgzqkj@gmail.com / info@zoomkingz
【Application Scenarios】 Science Museum Physics Exhibition Area: Serves as the core demonstration device for wave principles. Music Technology Experience Center: A bridge connecting acoustic theory and music creation. University Physics Laboratory: A visual teaching platform for wave phenomena. Art and Technology Exhibition: A creative tool for visualizing sound art. We welcome inquiries from science museums, science centers, educational institutions, and art spaces. We can provide customized wave experiment modules and curriculum development support based on your space characteristics and exhibition theme. Tel: +86 18882709667 WhatsApp: +86 18882709667 Email: zgzqkj@gmail.com / info@zoomkingzg.com
In geometry, a seemingly simple twist can create a mind-blowing miracle—the Möbius strip. It's formed by rotating a rectangular strip of paper 180 degrees and connecting the ends. This classic structure completely shatters our preconceived notions of "inside" and "outside," "front" and "back." Topologically, it's a "non-orientable" "one-sided surface." This means that if you imagine a small insect crawling on the ring, it can continuously traverse the original "front" and "back" of the paper strip without crossing any boundaries. It has only one face and only one boundary. This counterintuitive property makes it a timeless source of inspiration in mathematics, art, and even philosophy, symbolizing infinity, cycles, and unity. Our large-scale interactive exhibit, the "Möbius Strip," transforms this abstract mathematical concept into a vivid and intuitive visual chase on a giant, low platform only 30 centimeters high and 3.2 meters in diameter. At the heart of the exhibit is a meticulou
【Product Overview】 The Brain Exploration Interactive System is an innovative exhibit integrating science education, interactive experience, and visual display. Through the perfect combination of a life-size human brain model and an intelligent lighting system, it transforms complex neuroscience knowledge into an intuitive and vivid interactive experience. Visitors can gain a deeper understanding of the mysteries of various brain functional areas through simple operation.Inquiries are welcome. Tel: +86 18882709667 WhatsApp: +86 18882709667 Email: zgzqkj@gmail.com / info@zoomkingzg.com
In today's fast-paced life, we often ignore the rhythmic signals our bodies send out. However, the human body doesn't function in a straight line, but rather on a complex, fluctuating timetable written by the biological clock. Designing this timetable as an interactive "knowledge compass" cleverly empowers visitors: you no longer passively accept vague pronouncements about "optimal sleep times," but actively choose any moment that interests you or raises questions (such as "Why do I feel sleepy at 3 PM?") to explore what's happening inside your body at that specific time. This "on-demand," instant-feedback learning model greatly enhances the relevance and depth of knowledge retention, allowing everyone to verify and understand the patterns of the biological clock based on their own life experiences. Operating the "Biological Clock" exhibit (1800*789*2079mm) gives you a chance to "time travel" through your own body. Before you is a striking large clock face and an informative display w
Are you amazed by the fluid, efficient, and beautiful movement of fish in water? The secret to this movement lies in the ingenious coordination of their body, tail fin, and pectoral fins. One of the goals of modern biomimetic engineering is to simulate this biological movement using mechanical structures. Its core lies in converting rotational power (such as turning a handwheel) into periodic or undulating movements of specific parts (such as the fish's body, tail, and fins) through a transmission system composed of gears, chains, and linkages. Gears change the rotational speed and torque direction, chains transmit power over medium distances, and linkages convert rotational motion into reciprocating or oscillating motion along specific trajectories. When these mechanical components are precisely calculated and assembled, they work together to miraculously bring a model made of metal and engineering plastics to life, exhibiting swimming postures just like real fish. Our "Mechanical Fi
The Sun, the source of our life energy, is at its core a massive nuclear fusion reactor that has been running for approximately 5 billion years. Under the extreme temperatures and pressures of the Sun's core, reaching 15 million degrees Celsius, hydrogen nuclei (protons) gain enough kinetic energy to overcome their electrostatic repulsion, resulting in violent collisions. When two hydrogen nuclei fuse, they form a deuterium nucleus, releasing a positron and a neutrino; this deuterium then fuses with another hydrogen nucleus to form helium-3; finally, two helium-3 nuclei fuse to form a stable helium-4 nucleus, releasing two protons. In this series of reactions known as the "proton-proton chain reaction," a tiny fraction of mass is converted into enormous amounts of energy according to Einstein's mass-energy equivalence equation (E=mc²). It is this energy, converted from millions of tons of matter every second, that travels through space as light and heat, nourishing the Earth. Our "Sol
Have you ever wondered why you appear as a stick figure in some mirrors and as round as a ball in others? This isn't magic, but a fun application of optical principles. The core of funhouse mirrors lies in their surfaces, which are not flat planes but precisely curved. According to the law of reflection, the angle of reflection changes when light encounters a curved surface. Concave mirrors (inwardly concave) converge light, compressing or stretching the reflected image, often producing an elongated or narrowed effect; while convex mirrors (outwardly convex) diverge light, causing the image to spread outwards, creating a visual effect of appearing fatter or shorter. When the direction of curvature (horizontal or vertical) differs, this deformation is amplified in specific dimensions, creating exaggerated and comical images of "tall, short, fat, thin." Our interactive exhibit, "Funhouse Mirrors," uses four carefully designed and crafted concave and convex mirrors to transform this opti
In the realm of technology and art fusion, interactive installations often transform intangible experiences—such as music and light—into tangible wonders that participants can trigger with their own hands. At its core, these installations utilize touch sensors, using the conductivity of the human body as a trigger signal to close a circuit. When a participant presses the central control touch button with one hand to form the circuit's base point, and touches different note keys with the other, a complete control circuit is formed. Each note key corresponds to a preset audio file and a set of lighting control commands (such as specific LED rings). Upon recognizing a valid touch combination, the system instantly triggers two actions: playing the corresponding melody and controlling the current to sequentially illuminate the corresponding light sources (LEDs inside the angel model and a specific ring on top). This technology, which programs and synchronizes multi-touch, sound triggering,