The GUNT HM 250.07 - Bernoulli's Principle accessory allows investigation of the relationship between flow velocity and pressure in a Venturi nozzle. It demonstrates that as fluid velocity increases, static pressure drops, and as velocity decreases, static pressure rises, while total pressure remains constant.
Product Features
- Investigates flow velocity and pressure relationships in a Venturi nozzle
- Transparent Venturi nozzle with pressure connections for static pressure measurement
- Measures relative pressure increase compared to the narrowest cross-section
- Total pressure measured with a Pitot tube moved along the nozzle flow
- Dynamic pressure calculated from static and total pressures
- Pitot tube position observable for clear understanding of flow
- Nozzle can be rotated to act as a diffuser for comparing flow losses
- Easily positioned on HM 250 base module worktop
- Automatic accessory recognition via RFID and automatic GUNT software loading/configuration
- Intuitive user interface displays measured values graphically
- Up to 10 external workstations can track and evaluate experiments via LAN
- Base module supplies water and measures flow rate and pressure
Benefits
- Provides clear demonstration of Bernoulli’s principle in practical experiments
- Enables comparison of nozzle and diffuser flow losses
- Safe, easy setup with automatic software configuration
- Supports multi-user tracking and evaluation of experiments
Why Choose GUNT HM 250.07 - Bernoulli's Principle?
This accessory offers a reliable solution for studying pressure-velocity relationships, supporting precise experimental results and enhanced understanding of fluid mechanics principles.
