Electromagnetic Accelerator DIY Electrical and Magnetic Induction Circular Motion of Iron Ball Coil Magnetism Physics Experiment

Electromagnetic Accelerator DIY Electrical and Magnetic Induction Circular Motion of Iron Ball Coil Magnetism Physics Experiment Description: Electromagnetic accelerators can be used to achieve circular motion of iron balls. The principle is to use the force of magnetic field and current to accelerate the rotation of the iron ball. Specifically, electromagnetic accelerators typically contain one or more coils and magnets inside. When current passes through a coil, a magnetic field is generated around the coil. At the same time, the function of a magnet is to enhance or weaken the magnetic field strength, thereby accelerating or decelerating the iron ball under different forces. In order to achieve circular motion of the iron ball, an electromagnetic accelerator needs to be equipped with appropriate mechanical structures and control systems. Mechanical structures typically include brackets, guides, and transmission devices to support and guide the movement of iron balls. The control system is responsible for adjusting the intensity and direction of the current to control the magnitude and direction of the magnetic field and force, ultimately achieving the circular motion of the iron ball. It should be noted that the electromagnetic accelerator requires precise control and adjustment to achieve circular motion, in order to ensure the accurate and stable trajectory of the iron ball. Specification: Name: DIY Electromagnetic Accelerator Product Material: 3D Printing PLA+Wood Product Size: 160x160x70MM Note: The electromagnetic accelerator model power supply uses a DC power supply of DC12V or above, and the maximum voltage is not allowed to exceed 24V. When using a 12V power supply, the rated output current of the power supply should not be lower than 1A. The power interface should be 5.5-2.1mm in size, with positive inside and negative outside, and the reverse circuit may burn out. The number of balls placed at the same time cannot exceed three, as too many balls will prevent the charging part from completing the charging process and cause collisions between the balls. When this device is running stably, the ball is usually one.

Features

• Electromagnetic accelerators can be used to achieve circular motion of iron balls. The principle is to use the force of magnetic field and current to accelerate the rotation of the iron ball. Specifically, electromagnetic accelerators typically contain one or more coils and magnets inside. When current passes through a coil, a magnetic field is generated around the coil. At the same time, the function of a magnet is to enhance or weaken the magnetic field strength, thereby accelerating or decelerating the iron ball under different forces.
• In order to achieve circular motion of the iron ball, an electromagnetic accelerator needs to be equipped with appropriate mechanical structures and control systems. Mechanical structures typically include brackets, guides, and transmission devices to support and guide the movement of iron balls. The control system is responsible for adjusting the intensity and direction of the current to control the magnitude and direction of the magnetic field and force, ultimately achieving the circular motion of the iron ball.
• It should be noted that the electromagnetic accelerator requires precise control and adjustment to achieve circular motion, in order to ensure the accurate and stable trajectory of the iron ball.