This phet simulation of a neural cell membrane using a sodium potassium pump will help you visualize this form of active transport. In this section you will work your way through an animation of cellular transport and answer some questions to activate the model. Use your outline from EXPLAIN to be sure you have information on all cellular transport modes.Ī crash course video on all modes of cellular transportĪ video with a different approach to learning the various types of transport from Paul Anderson Crash Course Biology makes analogies and quickly moves through the material, while Bozeman Science speaks with a more intent tone and moves more slowly, providing many authentic examples. In this section you will need to choose which video best fits your learning style. This does not involve the direct usage of energy by atp in the process, but the movement of the membrane fusing and rearranging requires an input of energy by the cell. Passive and Active transport In this reading, focus on the the sodium potassium pump information for active transport.Įndocytosis and Exocytosis in this reading you will learn about the way cells ingest or expel extra large particles. Passive Transport- This is a very thorough and informative section about the specifics of passive transport. Use your outline from above to be sure you have information on all cellular transport modes. In this section you will need to read several passages to experience all the modes of cellular transport. This will help your brain organize to remember the content. Active Transport and Passive Transport will be your topic, with Roman numerals and the types of transport as letters. ![]() Let’s see what you know! Assign the following cellular transportation methods to either Active Transport AT or Passive Transport PT.Ĭheck your answers and then use the correct answers to organize the information in an outline form. ![]() If no energy or ATP is required to move material into or out of a cell, it is called passive transport. If it takes energy to move material into or out a cell, it is call Active Transport. The key concept to learn about cellular transport is to categorize the way material moves into and out of a cell by energy requirements! Remember ATP? ATP is cellular energy. ![]() ![]() StandardsīIO.A.2.2.3 Compare and contrast the structure and function of carbohydrates, lipids, proteins, and nucleic acids in organisms.īIO.A.4.2.1 Explain how organisms maintain homeostasis (e.g., thermoregulation, water regulation, oxygen regulation).īIO.A.4.1.2 Compare and contrast the mechanisms that transport materials across the plasma membrane (i.e., passive transport - diffusion, osmosis, facilitated diffusion active transport - pumps, endocytosis, exocytosis).īIO.A.4.1.1 Describe how the structure of the plasma membrane allows it to function as a regulatory structure and/or protective barrier for a cell. Your participation in a simple virtual lab wil help you quickly observe results to aid in understanding concentration gradients and the movement of material across a cellular membrane. There are many activities in the Engage section, each with a specific concentration in a type of transport. In this seminar you will inventory your knowledge of cellular transport and learn to organize the transport types based on energy requirements.
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