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obstacle avoidance robot STEM kit for drone science project

bionic car obstacle avoidance robot science working model

DIY robotics model for drone science project students

mechanical obstacle avoidance car without coding

DIY bionic car obstacle avoidance robot STEM project

obstacle avoidance robot for drone science project exhibition

Obstacle Bot! Bionic Car Obstacle Avoidance Robot STEM Project

Available:In Stock

Product SKU: LGPW283

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₹ 319 ~~₹ 399~~

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Highlights

Ages 8+
No coding needed
Reusable kit
Easy assembly
Builds logic skills

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Video Support to be purchased separately

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Details

Unassembled DIY set.
English User Manuals.
Power supply is required in this kit.

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🏠 Warehouse Details:

502 J - 110 X

Specification

Description

Obstacle Bot! Bionic Car Obstacle Avoidance Robot STEM Project

The Obstacle Bot! Bionic Car Obstacle Avoidance Robot STEM Project is a hands-on learning kit ideal for a drone science project that helps students explore robotics through mechanical logic rather than coding. Designed for classrooms and exhibitions, this model connects concepts commonly discussed in a photosynthesis science project by demonstrating cause-and-effect systems using motion and energy transfer.

As a drone science project, it allows learners to build a robot car that automatically changes direction on impact. This approach supports early STEM understanding and also complements interdisciplinary learning alongside a photosynthesis science project, making it suitable for diverse academic needs.

Materials and User Manual

Plastic chassis plates (2 pcs – orange)
Perforated mounting plate (1 pc – green)
Gear motor with gearbox (1 pc)
Wheels (2 pcs)
Battery holder with wires (1 pc)
Connecting wires (2 pcs – red & black)
Plastic stand parts and brackets
Axle rod, screws, nuts, and bolts
Double-sided tape
Decorative googly eyes

Drone Science Project – Working Principle

In this drone science project, the bionic car moves forward using a motor-driven wheel system. When the front panel touches an obstacle, it triggers a mechanical lever connected to an internal gear shift. As a result, the wheels redirect motion and the car turns automatically.

This repetitive cycle mirrors decision-based systems often explained in a photosynthesis science project, where inputs lead to predictable outcomes. Therefore, the model works as a reliable drone science project for demonstrating motion control without sensors or programming.

Feature

Automatic Obstacle Avoidance: Demonstrates real-time direction change, ideal for a drone science project showcase.

Beginner-Friendly Build: Mechanical design makes it suitable alongside a photosynthesis science project in school exhibitions.

Hands-On STEM Learning: Reinforces gears, motion transfer, and energy flow concepts used in both robotics and a photosynthesis science project.

Battery Powered: Simple electrical setup using AA batteries.

Exhibition Ready: A proven drone science project choice for science fairs and classroom demos.