Outdoor seating can be strategically designed to accommodate entanglement wedge experiments by incorporating modular, adjustable, and durable features. Here’s how:

1. Modularity: Use interlocking or reconfigurable seating units to create flexible setups that match experimental requirements. This allows researchers to adjust spacing and alignment for precise wedge configurations.

2. Sturdy Materials: Opt for weather-resistant materials like treated wood, aluminum, or reinforced polymers to ensure stability during experiments while withstanding outdoor conditions.

3. Flat, Stable Surfaces: Ensure seating surfaces are level and vibration-resistant to prevent interference with sensitive measurements. Embedded leveling mechanisms can enhance precision.

4. Integration with Equipment: Design seating with built-in mounts or slots for lasers, mirrors, or detectors, facilitating seamless setup for entanglement studies.

5. Portability: Lightweight yet robust designs enable easy relocation, ideal for experiments requiring varied environmental conditions.

By merging ergonomic seating with scientific functionality, outdoor furniture can become a versatile tool for cutting-edge physics research.