Two main food-making processes include cooking and fermentation. Cooking involves preparing and combining ingredients to create a dish, such as a pizza, whereas fermentation uses bacteria, yeast or mold to convert sugars to alcohol, gases or organic acids and is a key process in making bread, cheese, and wine.
There are numerous food-making processes, but two primary ones include cooking and fermentation.
For instance, when making pizza, the process involves inputs like ingredients, the efforts of the pizza maker, and tools and materials for cooking and serving. This process involves different stages such as preparing the dough, spreading the sauce, adding toppings, and baking the pizza in an oven.
Another prominent food making process is fermentation, which is highly involved in the production of foods and beverages. It uses bacteria, mold, or yeast to convert sugars to alcohol, gases, or organic acids. A familiar example of this process is alcohol fermentation, which produces ethanol and is used in making bread products and alcoholic beverages.
Learn more about Food-making Processes here:
#SPJ6
What is the pressure, in atm, of the methane gas?
Express the answer using 3 significant figures.
atm
Answer:
P = 0.979 atm
Explanation:
Given data:
Number of moles of methane = 40.8 mol
Volume of container = 1020 L
Temperature = 298 K
Pressure of gas =?
Solution:
According to ideal gas equation,
PV = nRT
P = pressure
V = volume
n = number of moles
R = general gas constant
T = temperature
Now we will put the values,
P = nRT/V
P = 40.8 mol × 0.0821 atm.L/mol.K × 298 K / 1020 L
P = 998.2 atm /1020
P = 0.979 atm
B.)StartFraction pi Over 3 EndFraction
C.)StartFraction 2 pi Over 3 EndFraction
D.)StartFraction 5 pi Over 6 EndFraction
THE ANSWER IS B!!!
Answer:
?
Explanation:
The force being applied toward the right is greater. So the box will move in the direction of the greater force being applied. The box will move toward the right. Hope this helps!!!
Gases were released to the atmosphere.
No, most elements on the periodic table are not nonmetals. About 75% of the elements on the periodic table are metals, with nonmetals including the Noble Gases, Halogens, Nitrogen and Oxygen making up a smaller portion. Additionally, the Metalliods, which are elements with properties of both metals and nonmetals, also hold a place on the periodic table.
No, most elements on the periodic table are not nonmetals, but rather metals. The periodic table is primarily comprised of metals, with the so-called 'metal' elements making up about 75% of the table's total elements. Nonmetals count for only a small part, located on the right side of the table. They include the Noble Gases, the Halogens, and some others like Nitrogen and Oxygen
Furthermore, there are a group of elements known as the Metalliods or Semi-Metals which have properties in between metals and nonmetals. These are located in a diagonal line from Boron to Astatine.
#SPJ6
4Zn + 10HNO3 + 4Zn(NO3)2 + N20 + 5H20
Help me please
Answer:
The equation is balanced
Explanation:
Before a equation can be said to be balanced the number of mole at the reaction side must be equal to number mole at the product side
Let's start with Zn at the reactant side 4 moles of Zn reacts and 4 moles of Zn was obtained from the product side which makes it balanced
Let's take HNO3
For H,10 moles react and 10 moles was obtained in the product side
For N,10 moles react and 8 moles was obtained initially and 2 moles was obtained as well which makes it 10 moles and it makes it balanced
For O,30 moles react and after calculating the total amount of O at the product side it was observed to be 30 which indicates that the equation is balanced...
The equation is absolutely well balanced