Why is it essential to have “structure before function” for effective learning? ​

500.00

Enable Group Purchase

The brain begins to mature even before birth. Although it continues to mature throughout most of life, the brain does not mature at the same rate in each individual.

This should not be surprising. After all, our bodies grow at different rates — we reach puberty at different ages and our emotional maturity at different times as well. Why should our brains be any different?

Just because you have a classroom full of students who are about the same age doesn’t mean they are equally ready to learn a particular topic, concept, skill, or idea. It is important for teachers and parents to understand that maturation of the brain influences learning readiness. For teachers, this is especially important when designing lessons and selecting which strategies to use.

As a teacher, all children need to be challenged and nurtured in order to profit from your instruction. Instruction that is above or below the maturity level of a child’s brain is not only inappropriate; it can also lead to behaviour problems in your classroom. Inappropriate behaviours — such as avoidance, challenging authority and aggression towards other students — can be explained by a failure to match instruction to the brain maturity of your students.

You should also know that all brain functions do not mature at the same rate. A young child with highly advanced verbal skills may develop gross and fine motor control more slowly and have trouble learning to write clearly. Another child may be advanced physically but not know how to manage his/her social skills. Others may be cognitively advanced but show emotional immaturity.

For all of these reasons, it is important to understand how our brains mature as well as the differences that may be present at each stage of “normal” development.

Course objective :
  • Demonstrate a solid understanding of basic neuroanatomy and nervous system function on a peripheral level.
  • Learn the general histological features of glia and neurons
  • Learn neurotransmission
  • Understand the origins of action potentials and synaptic potentials
  • Learn gross anatomy of the brain and brainstem
  • Relate developmental features to the adult CNS
  • Learn the basics of the vascular anatomy of the CNS
  • Understand the organization of functional systems – somatosensory, motor, visual, auditory, vestibular, and autonomic systems

 

Shopping Cart