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lOMoARcPSD|36 28985 6
Bio252 Primas week 1 lab
Samuel Primas Latest updated
version with 100% accurate
solutions + Diagrams –
Chamberlain college of
nursing
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Learning Objectives:
• Describe the major roles of muscle tissue
• Demonstrate how muscle contraction and relaxation are linked to
thermoregulation, digestion, circulation, and motor function.
• Differentiate smooth, cardiac and skeletal muscle based on their
microstructure.
• Describe the general organization and structural components of a
skeletal muscle. Explain the principle of the sliding filament
mechanism of skeletal muscle Identify major muscles and their
functions.
Introduction
Did you know that you have more than 600 muscles in your body? Some of
these muscles help to express your emotions through gesticulation and
facial expressions, while the heart beats more than 3.3 billion times over 80
years! In this simulation, you will take a closer look at the three distinct
muscle tissues we find in the human body and what purpose they serve.
Your first task is to learn about the different types of muscle tissues found
in the human body. Interact with the anatomical 3D holograms to explore
the distribution and main functions of skeletal, smooth, and cardiac muscle
tissues. Using the control panel to navigate the different models, you will
have to collect information about the tissues to solve different scenarios
related to the muscular system.
Continue your investigation by examining the muscle tissues at the cellular
level to see how the individual muscle cells of each muscle tissue compare
and contrast from one another. Pick up the cellular 3D models and examine
the nuclei, myofibrils, mitochondria and more to understand how the
intracellular components enable each muscle cell to perform the functions
characteristic for that muscle tissue.
Follow the pathway that allows a nerve signal initiated in the brain to
induce an actual muscle contraction in a skeletal muscle. Dive into the
molecular level and see how the myofibrils are arranged in repeating units
of sarcomeres. Compare a 3D model of a sarcomere to its electron
For more exams
Email:
Email:
lOMoARcPSD|36 28985 6
Bio252 Primas week 1 lab
Samuel Primas Latest updated
version with 100% accurate
solutions + Diagrams –
Chamberlain college of
nursing
For more exams
Email:
, For more exams
Email:
Learning Objectives:
• Describe the major roles of muscle tissue
• Demonstrate how muscle contraction and relaxation are linked to
thermoregulation, digestion, circulation, and motor function.
• Differentiate smooth, cardiac and skeletal muscle based on their
microstructure.
• Describe the general organization and structural components of a
skeletal muscle. Explain the principle of the sliding filament
mechanism of skeletal muscle Identify major muscles and their
functions.
Introduction
Did you know that you have more than 600 muscles in your body? Some of
these muscles help to express your emotions through gesticulation and
facial expressions, while the heart beats more than 3.3 billion times over 80
years! In this simulation, you will take a closer look at the three distinct
muscle tissues we find in the human body and what purpose they serve.
Your first task is to learn about the different types of muscle tissues found
in the human body. Interact with the anatomical 3D holograms to explore
the distribution and main functions of skeletal, smooth, and cardiac muscle
tissues. Using the control panel to navigate the different models, you will
have to collect information about the tissues to solve different scenarios
related to the muscular system.
Continue your investigation by examining the muscle tissues at the cellular
level to see how the individual muscle cells of each muscle tissue compare
and contrast from one another. Pick up the cellular 3D models and examine
the nuclei, myofibrils, mitochondria and more to understand how the
intracellular components enable each muscle cell to perform the functions
characteristic for that muscle tissue.
Follow the pathway that allows a nerve signal initiated in the brain to
induce an actual muscle contraction in a skeletal muscle. Dive into the
molecular level and see how the myofibrils are arranged in repeating units
of sarcomeres. Compare a 3D model of a sarcomere to its electron
For more exams
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