3D Workspace
Home
Assets
Affiliate Program
Sign up/Log in
?
Upgrade
DCC Bridge
3D Creation Made Simple
Text & Image to 3D Model in seconds
One-Click Texturing & Smart Detail Editing
Free Credits Monthly
Start Free
Anonymous1766048914
12-18 09:53
Model Name
quantum diagram 3d model
Tags
machine
rendering
stylized
Prompt
Create a realistic 3D scientific simulation of Rutherford’s Alpha Particle Scattering Experiment. The scene is set in a dark laboratory environment to clearly highlight particle motion. Radiation Source On the left side, place a solid lead block containing a radioactive alpha particle source. The block has a narrow slit at the front that emits alpha particles in a straight, focused beam. Alpha particles are shown as small glowing white or yellow spheres moving forward at high speed. Alpha Particle Motion Alpha particles move in straight lines initially Motion is continuous and smooth Particles are emitted one after another, not all at once Speed is constant until interaction occurs Gold Foil At the center of the scene, place an extremely thin vertical sheet of gold foil. The foil appears almost transparent, emphasizing that it is mostly empty space. Atomic Structure Inside Gold Foil Inside the gold foil: Show atoms spaced far apart Each atom contains: A tiny, dense nucleus at the center (small red glowing sphere) The nucleus is extremely small compared to the atom No solid electron shells — only empty space around the nucleus Particle–Nucleus Interaction (MOST IMPORTANT) When alpha particles reach the gold foil: Majority of particles Pass straight through without deflection Show this clearly to indicate empty space Some particles Slightly deflect at small angles Caused by repulsion from the positive nucleus Path curves gently and continues forward Very few particles Collide almost directly with the nucleus Suddenly reverse direction (backscattering) Move back toward the source at sharp angles This variation must be clearly visible and realistic. Detection Screen Surround the gold foil with a circular fluorescent zinc sulfide screen. When alpha particles hit the screen: Produce small bright flashes Each flash marks the impact point Backscattered particles flash on the left side Straight particles flash on the right side Camera & Motion Style Camera angle: slightly tilted 3D perspective Slow-motion emphasis during collisions Smooth particle trails to show paths clearly Continuous loop animation Scientific Accuracy Emphasis The animation must clearly demonstrate: Atoms are mostly empty space Positive charge and mass are concentrated in the nucleus Alpha particles are repelled by the nucleus Backscattering is rare but dramatic Overall Visual Tone Clean Educational High-contrast Physics-lab style Designed for Class IX CBSE demonstration
Detailed Info
Related Models
Enter invite code
Enter invite code to get credits!
