Search models, users, collections, and posts

Bacterial Cell Microscope Slide

Print Profile(1)

All
P1S
H2D
X1 Carbon
H2D Pro
X1E
A1
H2C
H2S
A1 mini
P2S
X1
P1P
X2D
A2L

0.1mm layer, 1 walls, 100% infill
0.1mm layer, 1 walls, 100% infill
Designer
1.8 h
1 plate

Open in Bambu Studio
Boost
20
59
0
0
12
5
Released 

Bill of Materials

Bambu Filaments
Select all
Blue (10601) / Refill / 1kg
Pink (10203) / Refill / 1kg
Purple (10700) / Refill / 1kg
List other parts
  • Elegoo PLA Transparent x 1:

Description

The Vision

Microscopic bacteria are among the hardest subjects for students to visualize. While eukaryotic cells are large enough to see on many school-grade microscopes, bacterial morphology often requires oil-immersion lenses that are impractical for a standard class period.

This Prokaryotic Specimen Slide makes the invisible visible. Modeled from scratch in TinkerCAD, it features a macroscopic Bacillus (rod-shaped) bacterium with its internal structures suspended in a translucent prism. It is a durable, shatterproof manipulative designed for KS3/GCSE Biology.

Detailed Specimen Anatomy

This model is color-coded to aid in the teaching of bacterial structure and the Gram-stain concept:

  • Purple (Cell Capsule): The outermost protective layer.
  • Pink (Cell Wall & Membrane): Representing the structural boundaries of the cell.
  • Blue (Internal Structures): High-contrast representations of the DNA/Plasmids and Ribosomes.

The 6/4/2 Optical Stack

This model utilizes the updated v2 stacking logic for maximum transparency on FDM printers:

  • Base (6 layers / 0.6mm): A solid foundation of translucent filament.
  • Specimen (4 layers / 0.4mm): The multi-color bacterial structures.
  • Cover (2 layers / 0.2mm): An ultra-thin "cover slip" layer for protection and clarity.

Technical Print Instructions (Optimized for Bambu P1S/AMS)

  • Slicer Engine: Arachne (Required to ensure the 0.4mm nozzle captures the fine Blue ribosomes and plasmids).
  • Filaments: Elegoo PLA Transparent (Slide), Bambu PLA Basic Purple/Pink/Blue (Specimen).
  • Infill: 100% Aligned Rectilinear.
  • Infill Direction: 0 degrees (Do not rotate; keep consistent for ALL layers).
  • Speed: 15–20 mm/s (Slow and steady for glass-like results).
  • Cooling: Part & Aux fans OFF after layer 3.
  • Z-Hop: 0.4mm to prevent nozzle interference during color swaps.

Educational Applications

  • Prokaryotic vs. Eukaryotic: Use this alongside the Plant/Animal slides to show the lack of a nucleus and the presence of a capsule.
  • Morphology Study: A perfect 3D representation of the Bacillus form.
  • Inclusive Learning: Shatterproof and high-contrast for students with visual or motor-skill challenges.

Credits & Licensing

Inspiration: While this is an original model in my Amber-Drop series, the concept of 3D-printed slides was inspired by the work of Val.

License: CC BY-NC-SA (Attribution-NonCommercial-ShareAlike) This model is for educational, non-commercial use. If you remix it, please credit The Projected Classroom and share your results with the community!

Support The Projected Classroom

If this model helps your students see the world a little more clearly, please consider supporting the lab!

  • 🚀 Boost This Model: Your MakerWorld Boosts directly fund the filament and R&D for future curriculum-aligned models.
  • 🛒 Visit the TPT Store: For full lesson plans, 3D printing guides, and expanded model packs, check out The Projected Classroom on Teachers Pay Teachers.
  • 💬 Feedback: I am a veteran Math and CS teacher—if you have suggestions for new organelles or slide types, let me know in the comments. Let’s build something purposeful together.

Comment & Rating (0)

(0/1000)