Science Kits for Kids – Hands-On STEM Experiments | Scibro

In this kit, we will: • Conduct fascinating experiments using plane, concave, and convex mirrors, along with a line laser. • Solve light maze puzzles through an exciting game involving multiple light reflections. • Use an optical fiber strand to guide light along a custom path! And we will also learn: • What is geometrical optics, and how do concepts like light sources and light rays work? • How do plane, concave, and convex mirrors reflect light? • How are images formed in different types of mirrors? • How does combining mirrors affect the direction of light? • What is the mechanism behind optical fibers, and how do they transmit light?

What We'll Do in This Kit: • Build and play with a smart car. • Assemble a fun robot car that changes direction automatically when its antenna circuit detects an obstacle. • Replace the antenna circuit with a light-detection circuit to build a light-following car that moves toward the beam of a flashlight or mobile phone. You Will Also Learn: • How to build a vehicle using a DC geared motor. • How a motor driver circuit works. • How to guide an electric vehicle using obstacle detection and light detection systems.

In this kit, we will: • Build our own electrical conductivity meter. • Explore the conductivity and electrical resistance of various everyday materials – including the human body – through fun experiments and exciting games. • Discover how different levels of conductivity produce different sounds and tones, allowing us to play games and even create melodies using electric signals! And we’ll learn: • What is a simple electrical circuit and how does electric current flow through it? • What are conductive and non-conductive materials, and what is electrical resistance? • What are some practical applications of electrical resistance in the world around us?

In this kit, we will: • Build two different types of kaleidoscopes: one with three mirrors and one with six mirrors. • Use the kaleidoscopes to view various objects and images, creating stunning and mesmerizing visual effects. • Look at different items—like a friend’s eye—through the kaleidoscope and search for the most beautiful patterns. We will also learn: • What a flat mirror is and how it forms images. • How repeated reflection occurs with multiple mirrors. • What a kaleidoscope is and how it can be used to view beautiful symmetrical patterns. • Some practical applications of repeated images using multiple mirrors.

In this kit: - We will build our own three-color light source. - Shine red (R), green (G), and blue (B) lights individually, in pairs, and all together on a white board to observe how the colors combine. - Look at patterned colored sheets under different colored lights and see how the light affects the way we perceive the patterns. - Create obstacles in the path of the colored lights and explore the fascinating effects of colorful shadows. You’ll also learn: - What are the primary colors? - How are other colors created by combining primary colors? - How does the human eye perceive colors?

In this kit, we will: •Build a special and beautiful periscope that allows us to look over or around an obstacle, such as a couch, while staying behind it. •Use a customized periscope to see what’s behind us! •Adjust the angle of the mirrors to see the ground in front of us while looking straight ahead! And we will also learn: •What is a periscope, and how is it structured? •What is geometric optics? •How is an image formed in a flat mirror? •What are the various applications of a periscope?

What do we do in this kit: We build our own Two-Marble Puzzle. We solve an apparently unsolvable puzzle with a very interesting solution. We get familiar with and solve the Coin Rescue Puzzle and use it as a unique, scientific keychain! We challenge our friends to solve these two puzzles! We also learn: What is force, and how does it affect the movement of objects? What kind of force can help us overcome the Earth's gravity? What do Newton's laws of motion teach us? What is the special and surprising force that solves this puzzle?

In this kit: •Examine our eyes and its details in a greatly magnified form. •Create a burning point by positioning a concave mirror under sunlight. •Finally, build a magic mirror that creates real, floating images of 2D and 3D objects in space that look real and touchable! We will also learn: •What is a concave mirror, and what are its characteristics and uses? •How can we form a real image in the air using a concave mirror? •What is the difference between real and virtual images?

In this kit: • We build a magic wheel that works using a weight and a rubber band. • By spinning the wheel in one direction, the rubber band twists and stores energy inside it. • When the rubber band returns to its original shape, it releases the stored energy and makes the wheel move in the opposite direction. • With this fun activity, we not only entertain our friends, but also teach them more about physics You’ll also learn: • What is energy? • What are the different types of energy? • Introduction to elastic potential energy and one of its cool real-life applications. • How potential and kinetic energy transform into one another.

A cylindrical periscope with two mirrors positioned at an angle. The top mirror captures an image from above and reflects it downwards, allowing the user to view distant objects through the lower mirror, similar to how a submarine periscope operates.