The cerebrum makes complex learning and abstract thinking possible and is the largest part of the brain.
The brain controls muscles, organs, thinking, and learning. Muscles are controlled by signals from the brain, while organs function through signals from the nervous and endocrine systems. Thinking and learning involve complex interactions between different parts of the brain.
neurotransmitters
cerebrum
the tom part
The cerebrum is the largest and most developed part of the brain. It, unfolded, has the surface area of four school desks. It makes up 85% of the brain's weight. It's the center of judgment, reasoning, complex learning, abstract thinking, association, interpretation of sensory information, speech, learning and memory, and also controls voluntary actions, like how you think and move. It's made of two halves, the left and right cerebral hemispheres.
Complex thinking is due to communication between different regions of the brain, particularly the prefrontal cortex, responsible for decision-making and planning, and the hippocampus, involved in memory formation and retrieval. This interaction allows for problem-solving, critical thinking, and creativity.
The cerebrum is the largest and most developed part of the brain. It, unfolded, has the surface area of four school desks. It makes up 85% of the brain's weight. It's the center of judgment, reasoning, complex learning, abstract thinking, association, interpretation of sensory information, speech, learning and memory, and also controls voluntary actions, like how you think and move. It's made of two halves, the left and right cerebral hemispheres.
Whenever you need the brain capacity and elasticity that you gained by learning it. And you'll have a bit of an edge over the people who didn't. Being able to use clear abstract thinking is a transferable skill.
The forebrain is a term used to designate the area of the brain that is responsible for the brain's critical and complex thinking, judgment making, and controlling impulses.
4 lobes
Humans are considered to be complex organisms because they are made up of many different organ systems that work together to maintain homeostasis and allow for intricate functions like consciousness and language. The human body consists of trillions of cells with specialized functions, making it capable of adaptability, learning, and complex social interactions. Additionally, humans have a highly developed brain, which allows for problem-solving, abstract thinking, and emotional responses.
Whale brains have larger and more complex structures for processing sensory information and communication compared to human brains. However, human brains have a higher level of cognitive abilities related to problem-solving, reasoning, and abstract thinking.