| File | Title | Manuscript Id |
|---|
| ChapTitleBig4 EnergyChapTitleSmallFROM THE SUN TO YOU IN JUST TWO STEPS | phelan3e_ch04_1.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_1_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.1–4.4: Energy flows from the sun and through all life on earth. | phelan3e_ch04_2.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_2_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.2: Energy has two forms: kinetic and potential. | phelan3e_ch04_3.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_3_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.3: As energy is captured and converted, the amount of energy available to do work decreases. | phelan3e_ch04_4.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_4_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.4: ATP molecules are like free-floating rechargeable batteries in all living cells. | phelan3e_ch04_5.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_5_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.5–4.11: Photosynthesis uses energy from sunlight to make food. | phelan3e_ch04_6.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_6_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.6: Photosynthesis takes place in the chloroplasts. | phelan3e_ch04_7.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_7_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.7: Light energy travels in waves: plant pigments absorb specific wavelengths. | phelan3e_ch04_8.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_8_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.8: Photons cause electrons in chlorophyll to enter an excited state. | phelan3e_ch04_9.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_9_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.9: Photosynthesis in detail: the energy of sunlight is captured as chemical energy. | phelan3e_ch04_10.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_10_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.10: Photosynthesis in detail: the captured energy of sunlight is used to make food. | phelan3e_ch04_11.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_11_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.11: The battle against world hunger can use plants adapted to water scarcity. | phelan3e_ch04_12.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_12_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.12–4.16: Living organisms extract energy through cellular respiration. | phelan3e_ch04_13.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_13_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.13: The first step of cellular respiration: glycolysis is the universal energy-releasing pathway. | phelan3e_ch04_14.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_14_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.14: The second step of cellular respiration: the Krebs cycle extracts energy from sugar. | phelan3e_ch04_15.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_15_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.15: The third step of cellular respiration: ATP is built in the electron transport chain. | phelan3e_ch04_16.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_16_dlap.xml | 5441c9ce757a2e2a7c000000 |
|
4.1 4.16 THIS IS HOW WE DO IT: Can we combat the fatigue and reduced cognitive functioning of jet lag with NADH pills?
| phelan3e_ch04_17.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_17_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.16 THIS IS HOW WE DO IT: Can we combat the fatigue and reduced cognitive functioning of jet lag with NADH pills? | phelan3e_ch04_18.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_18_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.17–4.18: There are alternative pathways to energy acquisition. | phelan3e_ch04_19.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_19_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.18: Eating a complete diet: cells can run on protein and fat as well as on glucose. | phelan3e_ch04_20.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_20_dlap.xml | 5441c9ce757a2e2a7c000000 |
| KNOWLEDGE YOU CAN USE | phelan3e_ch04_21.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_21_dlap.xml | 5441c9ce757a2e2a7c000000 |
| Key Terms in Energy | phelan3e_ch04_22.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_22_dlap.xml | 5441c9ce757a2e2a7c000000 |
| REVIEW & REHEARSE: 4 ENERGY | phelan3e_ch04_23.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_23_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.1–4.4: Energy flows from the sun and through all life on earth. | phelan3e_ch04_24.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_24_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.5–4.11: Photosynthesis uses energy from sunlight to make food. | phelan3e_ch04_25.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_25_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.12–4.16: Cellular respiration converts food molecules into ATP, a universal source of energy for living organisms. | phelan3e_ch04_26.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_26_dlap.xml | 5441c9ce757a2e2a7c000000 |
| 4.17–4.18: There are alternative pathways to energy acquisition | phelan3e_ch04_27.html | 5441c9ce757a2e2a7c000000 |
| DLAP questions | phelan3e_ch04_27_dlap.xml | 5441c9ce757a2e2a7c000000 |