Short answer: chemicals and electricity.

In a typical computer, you only really see electricity flowing in one direction or another to represent information. 1 or 0.

In a brain, you do have some binary information that works similar to this. But there’s a great deal more happening.

A brain will use electrical signals, whereas strength and frequency matter and represent a greater range of information.

You also have chemicals. You’ve heard of this before. Things like adrenaline, dopamine, serotonin… a brain can pass along and detect this for informational purposes.

Short answer: chemicals and electricity.

In a typical computer, you only really see electricity flowing in one direction or another to represent information. 1 or 0.

In a brain, you do have some binary information that works similar to this. But there’s a great deal more happening.

A brain will use electrical signals, whereas strength and frequency matter and represent a greater range of information.

You also have chemicals. You’ve heard of this before. Things like adrenaline, dopamine, serotonin… a brain can pass along and detect this for informational purposes.

Human and animal brains are based on complex biological processes involving neurons, synapses, and neurotransmitters. Unlike computers, which operate on binary logic, human and animal brains process information in a distributed and parallel manner.

Neurons are specialized cells that transmit electrical and chemical signals throughout the brain and nervous system. They form complex networks that allow the brain to process and integrate sensory information, make decisions, and control the body’s movements.

Synapses are the junctions between neurons that allow them to communicate with each other. When an electrical signal reaches the end of a neuron, it triggers the release of neurotransmitters that bind to receptors on the adjacent neuron, transmitting the signal across the synapse.

Neurotransmitters are chemical messengers that allow neurons to communicate with each other and with other cells in the body. Different neurotransmitters have different functions, such as controlling mood, regulating sleep, or processing pain signals.

In addition to neurons, synapses, and neurotransmitters, the brain also contains glial cells, which provide support and insulation for neurons, and regulate the brain’s immune response.

Overall, the human and animal brains are incredibly complex and sophisticated biological systems that allow for complex behaviors, emotions, and cognitive processes. While computers are excellent at performing certain tasks such as mathematical calculations or logical operations, they cannot replicate the full range of capabilities and processes of the human brain.

A large and complex mesh of nodes, with each node having up to 5120 simplex channels to other nodes whose totality creates a self organizing network that destructs and constructs itself based upon use case. It is speculated that each channel has logic gateways for AND, OR, and XOR

A large and complex mesh of nodes, with each node having up to 5120 simplex channels to other nodes whose totality creates a self organizing network that destructs and constructs itself based upon use case. It is speculated that each channel has logic gateways for AND, OR, and XOR

Human and animal brains are based on complex biological processes involving neurons, synapses, and neurotransmitters. Unlike computers, which operate on binary logic, human and animal brains process information in a distributed and parallel manner.

Neurons are specialized cells that transmit electrical and chemical signals throughout the brain and nervous system. They form complex networks that allow the brain to process and integrate sensory information, make decisions, and control the body’s movements.

Synapses are the junctions between neurons that allow them to communicate with each other. When an electrical signal reaches the end of a neuron, it triggers the release of neurotransmitters that bind to receptors on the adjacent neuron, transmitting the signal across the synapse.

Neurotransmitters are chemical messengers that allow neurons to communicate with each other and with other cells in the body. Different neurotransmitters have different functions, such as controlling mood, regulating sleep, or processing pain signals.

In addition to neurons, synapses, and neurotransmitters, the brain also contains glial cells, which provide support and insulation for neurons, and regulate the brain’s immune response.

Overall, the human and animal brains are incredibly complex and sophisticated biological systems that allow for complex behaviors, emotions, and cognitive processes. While computers are excellent at performing certain tasks such as mathematical calculations or logical operations, they cannot replicate the full range of capabilities and processes of the human brain.

A large and complex mesh of nodes, with each node having up to 5120 simplex channels to other nodes whose totality creates a self organizing network that destructs and constructs itself based upon use case. It is speculated that each channel has logic gateways for AND, OR, and XOR

Human and animal brains are based on complex biological processes involving neurons, synapses, and neurotransmitters. Unlike computers, which operate on binary logic, human and animal brains process information in a distributed and parallel manner.

Neurons are specialized cells that transmit electrical and chemical signals throughout the brain and nervous system. They form complex networks that allow the brain to process and integrate sensory information, make decisions, and control the body’s movements.

Synapses are the junctions between neurons that allow them to communicate with each other. When an electrical signal reaches the end of a neuron, it triggers the release of neurotransmitters that bind to receptors on the adjacent neuron, transmitting the signal across the synapse.

Neurotransmitters are chemical messengers that allow neurons to communicate with each other and with other cells in the body. Different neurotransmitters have different functions, such as controlling mood, regulating sleep, or processing pain signals.

In addition to neurons, synapses, and neurotransmitters, the brain also contains glial cells, which provide support and insulation for neurons, and regulate the brain’s immune response.

Overall, the human and animal brains are incredibly complex and sophisticated biological systems that allow for complex behaviors, emotions, and cognitive processes. While computers are excellent at performing certain tasks such as mathematical calculations or logical operations, they cannot replicate the full range of capabilities and processes of the human brain.

The brain equivalent of bits and logic would be the connections between neurons and their strength, this creates circuits that somehow encode our memories and behaviours.

For instance, when learning something certain connections are stimulated and strengthened, eventually creating new circuits that hold your learning.

The brain equivalent of bits and logic would be the connections between neurons and their strength, this creates circuits that somehow encode our memories and behaviours.

For instance, when learning something certain connections are stimulated and strengthened, eventually creating new circuits that hold your learning.