| File | Title | Manuscript Id |
|---|
| ChapTitleBig3 CellsChapTitleSmallTHE SMALLEST PART OF YOU | phelan3e_ch03_1.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_1_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.1–3.3: What is a cell? | phelan3e_ch03_2.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_2_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.2: Prokaryotic cells are structurally simple but extremely diverse. | phelan3e_ch03_3.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_3_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.3: Eukaryotic cells have compartments with specialized functions. | phelan3e_ch03_4.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_4_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.4–3.7: Cell membranes are gatekeepers. | phelan3e_ch03_5.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_5_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.5: Molecules embedded in the plasma membrane help it perform its functions. | phelan3e_ch03_6.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_6_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.6: Faulty membranes can cause diseases. | phelan3e_ch03_7.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_7_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.7: Membrane surfaces have a “fingerprint†that identifies the cell. | phelan3e_ch03_8.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_8_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.8–3.11: Molecules move across membranes in several ways. | phelan3e_ch03_9.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_9_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.9: Osmosis is the passive diffusion of water across a membrane. | phelan3e_ch03_10.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_10_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.10: In active transport, cells use energy to move small molecules into and out of the cell. | phelan3e_ch03_11.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_11_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.11: Endocytosis and exocytosis are used for bulk transport of particles. | phelan3e_ch03_12.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_12_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.12: Cells are connected and communicate with each other. | phelan3e_ch03_13.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_13_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.13–3.22: Nine important landmarks distinguish eukaryotic cells. | phelan3e_ch03_14.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_14_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.14: Cytoplasm and the cytoskeleton form the cell’s internal environment, provide its physical support, and can generate movement. | phelan3e_ch03_15.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_15_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.15: Mitochondria are the cell’s energy converters. | phelan3e_ch03_16.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_16_dlap.xml | 5441c9b9757a2ea874000000 |
|
3.1 3.16 THIS IS HOW WE DO IT: Can cells change their composition to adapt to their environment?
| phelan3e_ch03_17.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_17_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.16 THIS IS HOW WE DO IT: Can cells change their composition to adapt to their environment? | phelan3e_ch03_18.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_18_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.17: Lysosomes are the cell’s garbage disposals. | phelan3e_ch03_19.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_19_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.18: In the endoplasmic reticulum, cells build proteins and lipids and disarm toxins. | phelan3e_ch03_20.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_20_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.19: The Golgi apparatus processes products for delivery throughout the body. | phelan3e_ch03_21.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_21_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.20: The cell wall provides additional protection and support for plant cells. | phelan3e_ch03_22.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_22_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.21: Vacuoles are multipurpose storage sacs for cells. | phelan3e_ch03_23.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_23_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.22: Chloroplasts are the plant cell’s solar power plant. | phelan3e_ch03_24.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_24_dlap.xml | 5441c9b9757a2ea874000000 |
| KNOWLEDGE YOU CAN USE | phelan3e_ch03_25.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_25_dlap.xml | 5441c9b9757a2ea874000000 |
| Key Terms in Cells | phelan3e_ch03_26.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_26_dlap.xml | 5441c9b9757a2ea874000000 |
| REVIEW & REHEARSE: 3 CELLS | phelan3e_ch03_27.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_27_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.1–3.3: What is a cell? | phelan3e_ch03_28.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_28_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.4–3.7: Cell membranes are gatekeepers. | phelan3e_ch03_29.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_29_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.8–3.11: Molecules move across membranes in several ways. | phelan3e_ch03_30.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_30_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.12: Cells are connected and communicate with each other. | phelan3e_ch03_31.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_31_dlap.xml | 5441c9b9757a2ea874000000 |
| 3.13–3.22: Nine important landmarks distinguish eukaryotic cells. | phelan3e_ch03_32.html | 5441c9b9757a2ea874000000 |
| DLAP questions | phelan3e_ch03_32_dlap.xml | 5441c9b9757a2ea874000000 |