During photosynthesis plant release
<span>C 6 H 12 O 6 + 6 H 2 O + 6 O 2
the gas is 6O2
</span>
Answer:
- <em>sp³ hydbridization</em> is the formation of 4 equal hybrid orbtials (same characteristcs) by the hybridization ("mixture") of two different kind of orbitals: 1 type s orbtial and 3 type p orbitals.
Explanation:
This hybridization is the result of the rearragement of the valence electrons that originally are in s and p orbitals, forming the new hybrid orbitals (sp³).
This is easily explained with carbon atom.
- Carbon has atomic number 6, hence it has 6 electrons.
- Thus, the electron configuration of carbon is: 1 s² 2s² 2p².
- So, there are four valence electrons that are in the 2s and 2p orbitals.
- The hybridization consists in that the four valence electons, instead of remain in two different energy levels (s and p) will form 4 orbitals, named sp³, each with the same energy.
- In summary the four electrons originally distributed as 2s² 2p² will be located as 2 sp³.
Answer: In other words, mitochondria
Explanation:
Answer:
V CH4(g) = 190.6 L
Explanation:
assuming ideal gas:
∴ STP: T =298 K and P = 1 atm
∴ R = 0.082 atm.L/K.mol
∴ moles (n) = 7.80 mol CH4(g)
∴ Volume CH4(g) = ?
⇒ V = RTn/P
⇒ V CH4(g) = ((0.082 atm.L/K.mol)×(298 K)×(7.80 mol)) / (1 atm)
⇒ V CH4(g) = 190.6 L
Answer:
During the processes of condensation, freezing, and deposition, water releases energy. The energy released allows the water molecules to change their bonding pattern and transform to a lower energy state. In the Earth system, this energy must be absorbed by the surrounding environment.
Explanation:
Hope this helps ya