Give the scientific terminology for each discription

1The chemical synthesis process in plants in which CO2 plays a vital role
2Manure that comes from plants that are planted,but not harvested
3The name of the first step in the ostwald process

http://learn.eartheasy.com/2011/09/plant-a-fall-cover-crop-to-improve-your-garden-soil/

http://en.wikipedia.org/wiki/Ostwald_process

http://www.ext.colostate.edu/mg/gardennotes/141.html

#1. photosynthesis

#2. Several will fit but I go with "organic fertilizers". Surely you have this in your notes or text.
#3. oxidation

1. The scientific terminology for the chemical synthesis process in plants in which CO2 plays a vital role is "photosynthesis."

To understand this term, you can break it down. "Photo" refers to light, and "synthesis" refers to the process of combining elements or molecules to form a complex substance. In the context of plants, photosynthesis is the process by which they use sunlight, water, and carbon dioxide (CO2) to produce oxygen and glucose (a sugar that serves as a source of energy for the plant). This process occurs in the chloroplasts of plant cells and is essential for the growth and survival of plants.

2. The scientific terminology for manure that comes from plants that are planted but not harvested is "green manure" or "cover crop."

Green manure refers to the practice of growing certain crops that are specifically cultivated and then plowed under or incorporated into the soil when they reach a specific stage of growth. These crops are typically rich in organic matter and nutrients, making them beneficial for improving soil fertility and structure. Green manure plants are intentionally grown to enhance soil quality, fix nitrogen, suppress weeds, and protect the soil from erosion. They are not intended for harvest, but rather for their contribution to soil health.

3. The name of the first step in the Ostwald process is "ammonia oxidation" or "catalytic oxidation of ammonia."

The Ostwald process is a chemical process used to produce nitric acid (HNO3) from ammonia (NH3). The first step in this process involves the oxidation of ammonia gas using a catalyst, which converts ammonia to nitric oxide (NO) and water (H2O). This step is crucial because it sets off the subsequent reactions required for the production of nitric acid.

To understand the Ostwald process in more detail, one could further explore the chemical reactions and catalysts involved, as well as the subsequent steps and conditions required to obtain nitric acid efficiently.