To calculate the electromotive potential, also known as potential of the electromotive force (EMF), of a galvanic, or voltaic, cell using the E Cell formula when calculating E Cell: 1. Split the equation into half reactions if it isn't already. 2. Determine which equ...
To calculate the electromotive potential, also known as potential of the electromotive force (EMF), of a galvanic, or voltaic, cell using the E Cell formula when calculating E Cell: 1. Split the equation into half reactions if it isn't already. 2. Determine which equ...
Solved: The compressor specification gives a value of 58.8V/Krpm for the interline back EMF parameter, what should be entered for the Moter back
In cellular biology the membrane potential describes the concentration of ions on each side of a membrane. The Goldman Equation includes other factors like the permeability of the cell membrane and the type of transfer across the surface to calculate this potential. When these cells reach equilibrium...
In material chemistry, the coordination number is generally defined as the number of atoms attached to central ion. In a solid-state, it can be defined as the number of atoms attached to another atom. For different unit cells, the coordination number is also different...
Cyclic voltammetry is an electrochemical technique used to measure the current response of a redox active solution to a linearly cycled potential sweep using a potentiostat. Read more... Getting Started with the Ossila Potentiostat Everything you need to know about getting started with the Ossila po...
Using the Nernst equation, one can calculate the EMF produced under a no-load situation: Where E is the Nerstian EMF generated, R is the Universal Gas Constant = 8.31 J*K-1*mol-1, T is the temperature of the cell in Kelvin, F is the Faraday Constant = 96500 Cmol-1, Z is the ...
Calculate the emf from the circuit below. How can the formula for power (power = work done/time taken) be explained? What is the resistance of a circuit with a power source of 240 V and 3.8 mA? Is AC better than DC? Calculate the voltage required to move 2.6 mA through a 500 K ...
The best approach is to calculate the ON/OFF time of the transistor which yields maximum stable voltage across the output, meaning we need to make sure that the inductor is optimally switched such that it’s neither switched ON too quickly which might not allow it to discharge optimally, and...
The first thing we need to do is calculate the minimum and maximum values. You can do this using calculations like the ones below where column B is where the Data column is in the spreadsheet: =MAX(Sheet1!$B$2:$B$10) =MIN(Sheet1!$B$2:$B$10) ...