| 376 | Electric charge (given electrostatic potential energy,distance) | -388s.png) |
| 377 | Distance (given electrostatic potential energy and electrical charge) | -389s.png) |
| 378 | Soil Resistivity |  |
| 379 | Gravitational potential energy general formula (given mass and distance) | -391s.png) |
| 380 | Electrode Spacing(given soil resistivity,voltage and current) | -392s.png) |
| 381 | Voltage at Inner Electrodes(given soil resistivity,electrode Spacing and current) | -393s.png) |
| 382 | Current at Outer Electrodes(given soil resistivity,electrode Spacing and voltage) | -394s.png) |
| 383 | Hydraulic conductivity |  |
| 384 | Quantity of water measured (Given cross-sectional area, hydraulic conductivity, difference of hydraulic and length ) | -396s.png) |
| 385 | Hydraulic conductivity(given cross section,heigth and time) | -397s.png) |
| 386 | Reynolds number for porous media |  |
| 387 | Force applied to the upper plates |  |
| 388 | Reynolds number for flow in a pipe or tube |  |
| 389 | Reynolds number for flow in a pipe or tube(given volumetric folw rate,area,hydraulic diameter and viscosity) | -401s.png) |
| 390 | Reynolds number for flow in a pipe or tube(given hydraulic diameter,velocity and kinematic viscosity) | -402s.png) |
| 391 | Hydraulic diameter |  |
| 392 | Volumetric Thermal Expansion Coefficient |  |
| 393 | Linear Thermal Expansion Coefficient |  |
| 394 | Thermal conductivity |  |
| 395 | Henderson-Hasselbalch equation |  |
| 396 | Heat conduction (Given quantity of transmitted heat and time interval of heat transfer) | -407s.png) |
| 397 | Heat conduction (Given thermal conductivity,area,thickness and temperature difference) | -408s.png) |
| 398 | Heat transfer rate |  |
| 399 | Temperature difference (Given heat transfer rate, thermal conductivity constant and the distance or length of heat transfer) | -410s.png) |
| 400 | Distance or length of heat transfer (Given heat transfer rate, thermal conductivity constant and temperature difference) | -411s.png) |
