When the bubbling takes place from Co2
You would generally not be able to recover fossils from volcanic or plutonic rock, so looking around in an area on active volcanic islands would yield nothing.
You always want to look in the layers of sedimentary rock for fossils. The Grand Canyon would be a great place to see these layers as well as a shallow ocean because you may find the remains of prehistoric shark teeth or bones protruding through the surface of the sand.
The answer is Active volcanic islands.
If this is a question in which you can choose more than one answer it may be smart to also choose a shallow ocean as well. This is because it is difficult to get the tools and materials necessary down in the water and would be difficult to get deep enough underneath sand to start digging into actual fossil bearing rock.
So in that case, the answer would then be both Active volcanic islands and A shallow ocean.
Answer:
glucose
Explanation:
The photosynthesis chemical equation states that the reactants (carbon dioxide, water and sunlight), yield two products, glucose and oxygen gas.
Answer:
5. Dead animals sink to the sea floor and decompose, leaving their skeletons.
2. Mud and said fall to the seated, heat and pressure cover the sediment to rocks.
1. the skeleton is buried by sediment and slowly mineralized to stone.
3. Erosion takes place, expending the fossils.
6. The sea retreats of the rock beds we pushed up and are expened
4. The process repeats itself as more sediment falls and more animals die.
Explanation:
This is just my best guess, so please take it with a grain of salt! :')
gl on whatever assignment you happen to be completing, btw :3
Answer:
Oxygen
Explanation:
Oxygen is the last electron acceptor in the electron transport chain, which considers oxidative phosphorylation. Without oxygen, the electrons will be upheld, in the long run causing the electron transport chain to stop. This will make the results of glycolysis go through aging as opposed to going to the citrus extract cycle. Without oxygen, oxidative phosphorylation (the electron transport chain) is inconceivable, however substrate-level phosphorylation (glycolysis) proceeds.
