Continuing our look at the brain, we focus on the lobes of the cerebrum: frontal lobe, parietal lobe, temporal lobe, occipital lobe, and the insular.

Lesson 12 in our Nervous System series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support help us make more videos. For the complete series please visit http://mrfordsclass.net/

Videos in the skeletal system series:
- Introduction (10:01): http://youtu.be/HX1bsdHLC58
- Neurons (10:02): http://youtu.be/-AcQI5MQhLU
- Classification of Neurons (10:03): http://youtu.be/PoqzDE_OLsQ
- Neuroglia Cells (10:04): http://youtu.be/stqdNMc6-Jk
- Before We Start (10:08): http://youtu.be/E8K_W8c_c-M
- Divisions of the Nervous System (10:09): http://youtu.be/kEJkYkF6nMc
- Components of the Central Nervous System (10:10): http://youtu.be/IwofyN198YU
- The Cerebrum (10:11): http://youtu.be/VLt3jigsMAU
- Lobes of the Cerebrum (10:12): http://youtu.be/Zc__B_sOA-Q
- Functional Areas of the Brain (10:13

We continue our look at the Nervous System with the neuroglia cells: Astrocytes, Oligodendrocytes, Microglial cells and Ependyma.

Lesson 4 in our Nervous System series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support help us make more videos. For the complete series please visit http://mrfordsclass.net/

Videos in the skeletal system series:
- Introduction (10:01): http://youtu.be/HX1bsdHLC58
- Neurons (10:02): http://youtu.be/-AcQI5MQhLU
- Classification of Neurons (10:03): http://youtu.be/PoqzDE_OLsQ
- Neuroglia Cells (10:04): http://youtu.be/stqdNMc6-Jk
- Before We Start (10:08): http://youtu.be/E8K_W8c_c-M
- Divisions of the Nervous System (10:09): http://youtu.be/kEJkYkF6nMc
- Components of the Central Nervous System (10:10): http://youtu.be/IwofyN198YU
- The Cerebrum (10:11): http://youtu.be/VLt3jigsMAU
- Lobes of the Cerebrum (10:12): http://youtu.be/Zc__B_sOA-Q
- Functional Areas of the Brain (10:13): http://youtu.be/sjbZ9QGyBi8

We take a look at the nerve cells, the components of a neuron: dendrites, cell bodies, and axons.

The concepts covered in this video include:
•Neurons
•Parts of the neuron
•Axonal transport

Lesson 2 in our Nervous System series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support help us make more videos. For the complete series please visit http://mrfordsclass.net/

Videos in the skeletal system series:
- Introduction (10:01): http://youtu.be/HX1bsdHLC58
- Neurons (10:02): http://youtu.be/-AcQI5MQhLU
- Classification of Neurons (10:03): http://youtu.be/PoqzDE_OLsQ
- Neuroglia Cells (10:04): http://youtu.be/stqdNMc6-Jk
- Before We Start (10:08): http://youtu.be/E8K_W8c_c-M
- Divisions of the Nervous System (10:09): http://youtu.be/kEJkYkF6nMc
- Components of the Central Nervous System (10:10): http://youtu.be/IwofyN198YU
- The Cerebrum (10:11): http://youtu.be/VLt3jigsMAU
- Lobes of the Cerebrum (10:12): http://youtu.be/Zc__B_sOA-Q
- Functional Areas of the Brain (10:13): http://youtu.be/sjbZ9QGyBi8

A quick look at the cerebrum, what it is and what it does. We will look at the parts of the cerebrum in more detail as we continue our Nervous System video series.

Lesson 11 in our Nervous System series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support help us make more videos. For the complete series please visit http://mrfordsclass.net/

Videos in the skeletal system series:
- Introduction (10:01): http://youtu.be/HX1bsdHLC58
- Neurons (10:02): http://youtu.be/-AcQI5MQhLU
- Classification of Neurons (10:03): http://youtu.be/PoqzDE_OLsQ
- Neuroglia Cells (10:04): http://youtu.be/stqdNMc6-Jk
- Before We Start (10:08): http://youtu.be/E8K_W8c_c-M
- Divisions of the Nervous System (10:09): http://youtu.be/kEJkYkF6nMc
- Components of the Central Nervous System (10:10): http://youtu.be/IwofyN198YU
- The Cerebrum (10:11): http://youtu.be/VLt3jigsMAU
- Lobes of the Cerebrum (10:12): http://youtu.be/Zc__B_sOA-Q
- Functional Areas of the Brain (10:13): http://youtu.be/sjbZ9QGyBi8

Acting as biomedical engineers, students design, build, test and redesign prototype heart valves using materials such as waterproof tape, plastic tubing, flexible plastic and foam sheets, clay, wire and pipe cleaners. They test them with flowing water, representing blood moving through the heart. As students creatively practice engineering problem solving, they demonstrate their understanding of how one-way heart valves work.

Haz una oruga con un calcetín viejo. Agentes de Colorado Americorp en los condados de Araphahoe, Denver, Garfield, Larimer y Weld. Trabajo apoyado por la Corporación para el Servicio Nacional y Comunitario bajo el número de subvención 18AFHCO0010008 de Americorps. Las opiniones o puntos de vista expresados en esta lección pertenecen a los autores y no representan necesariamente la posición oficial o una posición respaldada por la Corporación o el programa Americorps.

This lesson covers the topic of human bones and joints. Students learn about the skeleton, the number of and types of bones in the body, and how outer space affects astronauts' bones. Students also learn how to take care of their bones here on Earth to prevent osteoporosis or weakening of the bones.

Students learn about the human body's system components, specifically its sensory systems, nervous system and brain, while comparing them to robot system components, such as sensors and computers. The unit's life sciences-to-engineering comparison is accomplished through three lessons and five activities. The important framework of "stimulus-sensor-coordinator-effector-response" is introduced to show how it improves our understanding the cause-effect relationships of both systems. This framework reinforces the theme of the human body as a system from the perspective of an engineer. This unit is the second of a series, intended to follow the Humans Are Like Robots unit.

Trail Guide for hiking trail near where important fossil finds occured in Western Colorado. When visiting these trails it is important to visit with respect by staying on the trail and leaving fossils where you find them. These fossils and tracks are protected under the Paleontological Resources Preservation Act (PRPA) of 2009. The act prohibits an attempt to excavate, remove, damage, or otherwise alter or deface any paleontological resources located on Federal land. In order to collect any fossils (plants, invertebrates, vertebrates) at these sites, a proper permit must be obtained. If you are interested in excavating fossils with our scientists at Dinosaur Journey, check out our Dinosaur Digs and Expeditions! https://museumofwesternco.com/things-to-do/dino-digs/

Dissect an owl pellet to learn more about what they eat. Activity from Weekly STEM in a Bag. Colorado Americorp agents in Araphahoe, Denver, Garfield, Larimer, and Weld Counties. Work supported by the Corporation for National and Community Service under Americorps grant number 18AFHCO0010008. Opinions or points of view expressed in this lesson are those of the authors and do not necessarily represent the official position of or a position that is endorsed by the Corporation or the Americorps program. This resource is also available in Spanish in the linked file.

This activity allows students to explore and reflect on circadian rhythms in themselves, influences of their lifestyle on those rhythms, investigate them in a scientific manner, and draw conclusions of their findings in a lab report format with data tables and graphs.A 2+ week take home lab activity with a lab report and graphs at the end. Can be used to explore the scientific method, physiological cycles, and how to share scientific knowledge.

This lesson focuses on the process of pollination. The learning objectives include learning the anatomy and physiology of flowers, the ecology of pollination, and a focus on plants as essential players in the natural world. There are no prerequisites for the lesson. The lesson will take 1½ hours, or 2 class periods or more -- depending on the areas teachers want to spend more time on or how far in depth they want their students to go. Materials needed are colored modeling clay, 8 or more assorted fresh flowers or pictures of flowers, preferably native to the local ecosystem. Dissecting microscopes or magnifying glasses are great for examining the fresh flowers, but not necessary. Additionally, pictures of different subjects/objects amongst plants are needed for the last activity. Activities for the breaks include assessing student knowledge of flowers by model building, and examining flowers to determine and distinguish between the pollination anatomy of different flowers.

To gain a better understanding of the roles and functions of components of the human respiratory system and our need for clean air, students construct model lungs that include a diaphragm and chest cavity. They see how air moving in and out of the lungs coincides with diaphragm movement. Then student teams design and build a prototype face mask pollution filter. They use their model lungs to evaluate their prototypes to design requirements.

Students reinforce their knowledge of the different parts of the digestive system and explore the concept of simulation by developing a pill coating that can withstand the churning actions and acidic environment found in the stomach. Teams test the coating durability by using a clear soda to simulate stomach acid.

Haz un insecto de artes y oficios a partir de una caricatura de huevo. Actividad de Bolsa de STEM Semanal. Agentes de Colorado Americorp en los condados de Araphahoe, Denver, Garfield, Larimer y Weld. Trabajo apoyado por la Corporación para el Servicio Nacional y Comunitario bajo el número de subvención 18AFHCO0010008 de Americorps. Las opiniones o puntos de vista expresados en esta lección pertenecen a los autores y no representan necesariamente la posición oficial o una posición respaldada por la Corporación o el programa Americorps.

Pulmonary Physiology for Pre-Clinical Students is an undergraduate medical-level resource for foundational knowledge of pulmonary physiology. This text is designed for a course pre-clinical undergraduate medical curriculum and it is aligned to USMLE(r) (United States Medical Licensing Examination) content guidelines. The text is meant to provide the essential information from these content areas in a concise format that would allow learner preparation to engage in an active classroom. Clinical correlates and additional application of content is intended to be provided in the classroom experience. This resource should be assistive to the learner later in medical school and for exam preparation given the material is presented in a succinct manner, with a focus on high-yield concepts.

In this activity, learners explore their eye pupils and how they change. Learners use a magnifying glass, mirror, and flashlight to observe how their pupil changes size in response to changes in lighting. Learners also experiment to determine how light shining in one eye affects the size of the pupil in their other eye. This resource guide includes background information about pupils and why they change as well as information related to emotional stimuli, involuntary reflexes, and photography.

Students observe and test their reflexes, including the (involuntary) pupillary response and (voluntary) reaction times using their dominant and non-dominant hands, as a way to further explore how reflexes occur in humans. They gain insights into how our bodies react to stimuli, and how some reactions and body movements are controlled automatically, without conscious thought. Using information from the associated lesson about how robots react to situations, including the stimulus-to-response framework, students see how engineers use human reflexes as examples for controls for robots.

This lesson contains background about the blood vascular system and the heart. Also, the different sizes of capillaries, veins, and arteries, and how they affect blood flow through the system. We will then proceed to talk about the heart's function in the blood vascular system. This will lead into a discussion of heart valves, how they work and what might cause them to fail. Then we will discuss prosthetic heart valves.