Axons and dendrites make neuronal signal connections via synapses, which are small spaces between the output (axon) and inputs (dendrites) of neurons, through which chemicals released by axons, called neurotransmitters, diffuse to and stimulate new neural impulses in dendrites, thus functionallyconnecting the brains neurons.
There are also small molecules called synaptic adhesion molecules which protrude from both the end of an axon and the beginning of a dendrite, into the synapse, which then stick to each another, thus holding the axon and dendrite in position together, although the cell membranes of the two neurons do NOT touch nor merge, and there is no exchange of cytosol between them.
It is called synaptogenesis.
The brain performs memory function through a process involving the formation of new connections between neurons, known as synaptic plasticity. These connections store memories as changes in the strength of synaptic connections, allowing for the encoding, storage, and retrieval of memories. Neurotransmitters and proteins play a crucial role in this process by facilitating communication between neurons and strengthening or weakening synaptic connections.
Sex bonding chemicals, such as oxytocin and dopamine, play a crucial role in forming intimate connections between individuals. These chemicals are released in the brain during sexual activity and create feelings of attachment, trust, and pleasure, which can strengthen the bond between partners. This biological process helps to foster emotional intimacy and deepen the connection between individuals in a romantic relationship.
Synaptic pruning in adolescence is a process where unnecessary connections between neurons are eliminated, allowing the brain to become more efficient. This process helps strengthen important connections and improve cognitive function by enhancing the brain's ability to process information and adapt to new experiences.
A single neuron can make thousands to tens of thousands of connections with other neurons. This network of connections allows for the transmission of information throughout the brain and is essential for brain function.
No, you are born with the wrinkles in your brain (they increase the surface area), however when you learn things during life, new synaptic connections are made in your brain at the microscopic level.
"synapses"
complexity
It is called synaptogenesis.
Microscopic animals
One way to increase brain mass and connections is through regular exercise. Physical activity has been shown to stimulate the growth of new neurons and the formation of new connections between existing neurons, leading to improvements in brain structure and function.
Activities such as learning new skills, problem-solving, playing musical instruments, exercising regularly, socializing, and engaging in activities that challenge the brain can help create new neuronal connections in the brain. Stimulating activities that require focus, memory, and attention can also promote neuroplasticity and enhance cognitive function.
The brain is estimated to have around 100 trillion synapses. These synapses are the connections between neurons that allow them to communicate with each other.
Yes, infants are born with connections between brain cells, known as synapses, but the number and complexity of these connections are relatively limited at birth. As they grow, their experiences and environmental interactions stimulate the formation of new synapses, leading to a rapid increase in neural connections. This process, known as synaptogenesis, is crucial for cognitive development and learning during the early years of life.
Neurological connections refer to the communication pathways between brain cells, known as neurons. These connections allow neurons to transmit electrical and chemical signals to one another, enabling various brain functions like thinking, feeling, and moving. The strength and formation of these connections can change over time in response to experiences, learning, and development.
as big as the microscopic part of your nail
The brain contains around 86 billion neurons, each of which can form connections with thousands of other neurons. This means that the total number of connections in the brain, known as synapses, is estimated to be in the quadrillions.