Inside the Human Brain HSP3M

Our Amazing Brain: Did you know… Our brain has a trillion brain cells! 100 active nerve-cells 900 billion cells that nourish and insulate the active cells Can grow 20,000 branches on every one of those 100 billion nerve cells Communicates with every part of your body through an exchange of electrical-chemical messages Holds the key to your personal learning and personality

The Human Brain--Functions

Human Brain Frontal Lobe- associated with reasoning, planning, parts of speech, movement, emotions, and problem solving Parietal Lobe- associated with movement, orientation, recognition, perception of stimuli Occipital Lobe- associated with visual processing Temporal Lobe- associated with perception and recognition of auditory stimuli, memory, and speech Cerebellum - associated with regulation and coordination of movement, posture, and balance.

The Human Brain Thalamus is a large mass of gray matter The structure has sensory and motor functions. Almost all sensory information enters this structure where neurons send that information to the overlying cortex.

The Human Brain Hypothalamus- The structure is involved in functions including homeostasis, emotion, thirst, hunger, circadian rhythms, and control of the autonomic nervous system. Examples: Moods and motivation Sexual maturation Temperature regulation Hormonal body processes

The Human Brain Amygdala- involved in memory, emotion, and fear.

Human Brain Hippocampus- This part of the brain is important for learning and memory. Specifically for converting short term memory to more permanent memory.

Human Brain Pons- It is involved in motor control and sensory analysis... for example, information from the ear first enters the brain in the pons. It has parts that are important for the level of consciousness and for sleep. Some structures within the pons are linked to the cerebellum, thus are involved in movement and posture.

Human Brain Medulla- is responsible for maintaining vital body functions, such as breathing and heart rate.

Human Brain Left Hemisphere Right Hemisphere The left hemisphere controls the right side of the body Produce and understand language Right Hemisphere The right hemisphere controls the left side of the body Temporal and spatial relationships Analyzing nonverbal information Communicating emotion

Inside the Teenage Brain Adolescence is characterized by extreme mood swings and participation in risk-taking behaviour. Many changes are occurring in the frontal cortex which account for these behaviours. The frontal cortex, which is responsible for reason and logic, is not fully developed in adolescents.

Inside the Teenage Brain Due to this, many adolescents misinterpret emotions causing conflict with parents, peers and teachers. Example: Misinterpreting one’s behaviour as anger. The adolescent brain does not interpret environmental information in the same manner as adult do.

Inside the Teenage Brain The cerebellum, responsible for organizing thoughts and cognition, changes the most during adolescence. The cerebellum is not fully developed until a person is 21 years old. This lack of development can account for adolescents not always hearing or understanding what their parents or teachers are trying to communicate and their lack of organization.

Inside the Teenage Brain Getting adequate sleep is one of the best things adolescents can do to enhance learning and brain development. Adolescents need 9 ¼ hours sleep a night to function properly. Despite this, on average adolescents get only 7 ½ hours sleep per night. This continuous sleep deficit causes significant gaps in learning.

Inside the Teenage Brain Adolescents circadian clock keeps teens up late at night, however as school starts early they are forced to get up before they have received enough sleep. As a result most adolescents are not able function properly in school as they are still in a sleep like state. Studies show that when teens get adequate sleep they perform better on cognitive tasks. Teens that are sleep deficient show significant gaps in their ability to retain information and perform cognitive tasks.

Inside the Teenage Brain So why does school start so early? Later school start studies indicate that when school starts later (10 am- 4:30 pm), teens perform better academically and they are less frequently absent. However they are less likely to participate in extra curricular activities which are also beneficial to healthy development.