For parallel electrodes, the field lines are all parallel to each other, since each electrode acts as an equipotential surface, meaning it has the same potential throughout its entire surface, except at the ends, where the field lines are no longer parallel to the other field lines. Hope this helps!
CHF
I thought it was 0
Well the m stands for model. So its whole meaning is Model 16 Military Rifle. So the 16 is just a model number. So the M4 is a Model 4 Military Rifle and so on and so forth for other rifles. The AR-15 is Armalite Model.
12 timesExactly 12 times
carbon content
Approximately 16-20 electrodes
Approximately 16-20 electrodes
1/16 inch
They are electrodes surgically-implanted into the brain
Pt electrodes refer to electrodes that are made of platinum. These electrodes are commonly used in various electrochemical applications due to platinum's inert nature, high conductivity, and stability in corrosive environments. Pt electrodes are versatile and can be used in different setups such as in fuel cells, sensors, and electrophysiology experiments.
Electrodes placed inside the cochlear receive the decoded signals. The 22 electrodes allow a range of different pitches to be detected. The electrodes stimulate the hearing receptors.
Common types of electrodes used for electrical brain stimulation include intracranial electrodes (such as depth electrodes or grids), subdural electrodes, and transcranial electrodes. These electrodes are used in techniques like deep brain stimulation (DBS), electrocorticography (ECoG), and transcranial direct current stimulation (tDCS) to modify neural activity for therapeutic or research purposes.
Platinum electrodes are commonly used in conductometric titrations because they are inert, meaning they do not react with the solutions being tested, ensuring accurate measurements. In addition, platinum electrodes have good electrical conductivity and stability, making them reliable for consistent and precise titration results.
The calomel electrodes are usually used as the salt bridge.
There are several types of ion-selective electrodes including glass membrane electrodes, liquid ion-exchange electrodes, solid-state ion-selective electrodes, and gas-sensing electrodes. Each type is designed to selectively detect and measure specific ions in a solution based on their electrochemical properties.
Electrolysis of brine requires inert electrodes, such as platinum or graphite, to prevent the electrodes from reacting with the products of the electrolysis. Using inert electrodes ensures that the reactions at the electrodes are solely due to the electrolysis of the brine solution and do not introduce impurities or alter the chemical composition of the products.