question:
what 'structure' transduces light into neural impulses?
answer:
a life form's 'virtual' optical neural network
The retina is responsible for transducing light into neural impulses. It is a layer of tissue located at the back of the eye that contains photoreceptor cells (rods and cones) that convert light into electrical signals that can be processed by the brain.
The light sensitive surface that converts light into neural impulse is called the retina
The receptor cells that convert light energy into neural signals are called photoreceptor cells. These cells are located in the retina of the eye and are responsible for producing electrical signals in response to light stimulation.
Neural sculpting is a process that involves rewiring the brain by intentionally creating new neural pathways through repeated mental exercises and experiences. This concept is often utilized in practices like meditation, mindfulness, and cognitive behavioral therapy to promote positive changes in behavior, thoughts, and emotions. By sculpting the brain in this way, individuals can strengthen desired neural connections and weaken harmful ones.
The neuroscience perspective in psychology would emphasize that behavior is influenced by the complex interplay of genetic, neural, and environmental factors. It would focus on how brain structure and function contribute to cognitive processes, emotions, and behaviors, highlighting the role of neurotransmitters, hormones, and neural networks in shaping our actions and experiences.
The shape of a neuron can be influenced by genetic factors, environmental stimuli, developmental processes, and neural activity. Changes in these factors can lead to alterations in the structure and complexity of a neuron's dendrites, axon, and synaptic connections, impacting its overall shape and function.
Transductions
Electrical impulses are referred to as neural impulses because a neural impulse cause electrical impulses. Neurons use electrical impulses to send messages.
Action potential is a neural impulse.
Action potential is a neural impulse.
The inner ear is responsible for converting sound waves into neural impulses that are sent to the brain.
Dendrites
Neural impulses (action potentials) are transmitted through axons which are covered in a myelin sheath for insulation.
the optic nerve in your eye
Neural impulses
neural impulses from the brain
Retina
They occur in insulated or myelinated axons.