The next step for many scientists is to study how neurons communicate with each other in the brain, using a method called transcranial direct current stimulation (tDCS).
tDCS is a method of using electrical currents in the scalp to activate neurons in the cerebral cortex.
Scientists have found that tDCS can induce changes in brain activity in areas of the brain associated with cognition and memory.
Researchers have found tDCS to stimulate areas of specific brain regions in humans and animals.
The results of tDCS experiments can be used to determine how much of the cortex is active at any given time and to understand how it functions in the human brain.
The goal of tAS is to develop better ways of monitoring the activity of neurons, as well as the brain as a whole.
For example, if you want to study the activity in your brain, you can use a device called a TMS device.
Using tDCS techniques, researchers can measure the electrical signals generated by neurons.
This data can then be used in a variety of ways.
In one example, tAS studies show that tAS improves the spatial perception of objects and people, which can be useful for studying brain regions involved in spatial learning and memory tasks.
In another example, TAS studies suggest that tCS can improve cognitive functions in people who suffer from a neurodegenerative disease, such as Parkinson’s disease.
tDCS methods can also help scientists better understand how the brain functions in different types of disorders, such to schizophrenia, epilepsy, autism and Alzheimer’s disease (AD).
tAS methods can be applied to a wide variety of brain disorders, including Parkinson’s, epilepsy and autism.
The technique has also been applied to other diseases, such depression, PTSD, depression and posttraumatic stress disorder.
tAS techniques are not new, but they are not used as often in neuroscience research.
There are currently several different types and types of tas devices, each with different strengths and weaknesses.
One type of taser used in the United States is a coil of metal, and is typically used to stop a motor neuron, or a part of a motor cortex.
Another type of device, called a tDCS device, is a device that contains a tiny electrode array on top of the skin, and the electrical pulses are directed at the skin.
These devices can also be used for studying the effects of a substance such as alcohol on the brain.
Another tas device, which has recently gained widespread use in China, is called a transcranium tassel.
These types of devices are similar to the coils used in tasers, but are much more sensitive and can produce much higher electrical currents.
Scientists use these devices because they can measure a person’s brain activity, and can then compare the brain activity with the brain recordings obtained from other people.
These recordings can then help determine the brain’s activity at a particular time and location.
tas can also improve cognitive tasks, such memory and spatial learning, which are critical to learning.
tCS has been applied in many ways, but its most recent application is in the treatment of schizophrenia.
In a study published in the journal Frontiers in Neuroanatomy in 2015, researchers showed that tas applied to the brain reduced symptoms of schizophrenia by about 40 percent.
One group of patients with schizophrenia had low levels of tAs in their brains, while the other group had normal levels.
These patients had better memory and a greater ability to learn and remember tasks than did the placebo group.
This is because the patients with low levels also had more tAs.
This study provides evidence that tAs can improve cognition in people with schizophrenia.
tASC methods are also useful for studies on the effects that tACS have on memory, as it is known that the brain does not learn quickly, but can take years to master new tasks.
tACs can be effective in improving memory.
For instance, studies have shown that tASC can reduce the time needed to complete a memory task in people without schizophrenia.
One study showed that people who were using tASC had a better retention rate of new items compared to people who had not used tASC.
The study also found that those using tAS had higher rates of learning to the memory task.
Another study found that the more tASC was used, the more participants were able to remember a task.
tCAS methods are often used in cognitive testing and other research, as they are more effective than tAS devices in preventing memory loss and improving performance.
tCT is a type of electrode that uses the magnetic field to stimulate specific areas of brain tissue, and has been used for a number of studies.
Researchers can use tCT devices to study brain activity and the brain and its processes.
These tCT studies can help researchers understand how brain activity functions in specific areas and how the functioning of the nervous system works.
These studies can then determine how brain regions work together and in concert to solve problems in the world.
tcAS devices are often applied to cognitive