| Item | Key Features | Notes / Differences |
|---|---|---|
| Passive Transport | No energy, down gradient | Includes diffusion, facilitated diffusion, osmosis |
| Active Transport | Requires ATP, against gradient | Uses transport proteins, endo/exocytosis |
| Simple Diffusion | Molecules pass directly through membrane | Small, nonpolar molecules |
| Facilitated Diffusion | Uses transport proteins, no energy | For large/charged molecules |
| Osmosis | Water movement across membrane | High to low water potential |
| Tonicity | Effect on cell volume based on external solute concentration | Isotonic, hypertonic, hypotonic |
Cell Transport
ββ Passive Transport
β ββ Simple Diffusion
β ββ Facilitated Diffusion
β ββ Osmosis
ββ Active Transport
ββ Transport Proteins
ββ Endocytosis
ββ Exocytosis
Test your knowledge on Cell Transport Mechanisms with 9 multiple-choice questions with detailed corrections.
1. What distinguishes passive transport from active transport in cell membrane processes?
2. Which of the following best describes passive transport in cell membranes?
Memorize the key concepts of Cell Transport Mechanisms with 10 interactive flashcards.
Endocytosis β role?
Engulfs material into cell via membrane folding.
Cell transport β definition?
Movement of molecules across membranes.
Tonicity β effect?
Determines cell volume changes by water movement.
Import your course and AI generates sheets, quizzes and flashcards in 30 seconds.
Sheet generator