BernSighCal

This BernSighCal App focuses on high-frequency computing needs in the field of scientific research and engineering, integrating five core modules to help efficient and accurate calculations:

R and L in Parallel: Supports R/L parallel circuit analysis, quickly solves impedance, current distribution and power loss, and has built-in intuitive charts to display phase relationships, adapting to circuit design and troubleshooting scenarios.

Bernoulli number: Built-in Bernoulli number calculation engine, which can generate the first 100 Bernoulli numbers and polynomial expansions with one click, with error analysis function to meet the needs of number theory research, numerical integration and other scenarios.

Eccentric loading: For eccentric loading conditions, it provides stress distribution, eccentricity correction and stability verification calculations, built-in specification database (such as ASME/AISC), and outputs load-deformation curves with pictures and texts.

Sight Distance less than ertical Curves: Solve the design problem of sight distance less than vertical curve, automatically calculate the minimum curve radius and superelevation transition section length, and generate a three-dimensional sight distance simulation map combined with terrain parameters to assist in optimizing route safety.

Magnetic Flux: Supports dynamic calculation of magnetic flux, covering scenes such as uniform magnetic field and solenoid magnetic field. It can link time variables to generate magnetic flux change curves, adapting to motor design and electromagnetic induction experimental analysis.

The interface is simple and intuitive, and input parameters are intelligently verified. Whether you are a researcher, engineer, or university teacher and student, you can use this tool to improve calculation efficiency, reduce manual errors, and focus on breaking through core problems. Download now to unlock a new experience in scientific computing!