One mechanism is enzyme induction.
Enzymes are proteins, which are metabolically expensive to produce. It makes evolutionary sense that your body makes less digestive enzymes such as lactase and sucrase when they're not needed. If your diet changes, your body can gradually increase the production of some enzymes through a process of enzyme induction.
For example, the production of lactase enzyme can be increased in some lactose-intolerant individuals by feeding them lactose . Also, studies in rats have shown that other carbohydrate-digestiYour body makes more of what it needs, and less of what it doesn't need--brilliant!ng enzymes, such as sucrase-isomaltase, trehalase, and maltase-glucoamylase--can be induced by hydrocortisone administration.
It states the fact, which we now know, that electrons are responsible for the chemical bonding. According to this theory, valency is the number of electrons present in the outermost energy shell of the atom. This energy shell is called valency shell.
The electrons located in the valence shell of an atom are responsible for forming chemical bonds by sharing, donating or accepting electrons.
The parts of the atom responsible for chemical bonding are the electrons, which are located in the outermost shell of the atom, also known as the valence shell. These electrons can be shared, donated, or accepted to form chemical bonds with other atoms. For example, in a covalent bond, electrons are shared between atoms. In contrast, in an ionic bond, electrons are transferred from one atom to another, creating ions that are attracted to each other and form a bond.
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3. Determine the average percent yield of MgO for the two trials.
Answer:
Part 1
Theoretical yield of MgO for trial 1 = 0.84 g
Theoretical yield of MgO for trial 2 = 1.01 g
Part 2
Percent yield trial 1 = 28.6 %
Percent yield trial 2 = 49.9 %
Part 3
Average percent yield of MgO for two trial = 39.25 %
Explanation:
Part 1.
Data Given
Trial 1 Trial 2
mass of empty crucible and lid: 26.679 g 26.685 g
mass of Mg metal, crucible and lid: 26.931 g 26.988 g
mass of MgO, crucible and lid: 27.090 g 27.179 g
Theoretical yield of MgO for trial 1 and 2 = ?
Solution:
As Mg is limiting reagent so amount of MgO depends on the amount of Mg.
So, now we will look for the reaction to calculate theoretical yield
MgO form by the following reaction:
Mg + O₂ ---------> 2 MgO
1 mol 2 mol
Convert moles to mass
Molar mass of Mg = 24 g/mol
Molar mass of MgO = 24 + 16 = 40 g/mol
So,
Mg + O₂ ---------> 2 MgO
1 mol (24 g/mol) 2 mol(40 g/mol)
24 g 80 g
So,
24 g of Mg gives 80 g of MgO
To Calculate theoretical yield of MgO for Trial 1
First we look for the mass of Mg in the Crucible
Mass of Mg = mass of Mg metal, crucible and lid - mass of empty crucible and lid
Mass of Mg = 26.931 g - 26.679 g
Mass of Mg = 0.252 g
As we come to know that 24 g of Mg gives 80 g of MgO, then amount of Mg from trial 1 that is 0.252 g will produce how many grams of MgO
Apply unity formula
24 g of Mg ≅ 80 g of MgO
0.252 g of Mg ≅ X g of MgO
Do cross multiplication
X g of MgO = 0.252 g x 80 g / 24 g
X g of MgO = 0.84 g
So the theoretical yield of MgO is 0.84 g
--------------
To Calculate theoretical yield of MgO for Trial 2
First we look for the mass of Mg in the Crucible
Mass of Mg = mass of Mg metal, crucible and lid - mass of empty crucible and lid
Mass of Mg = 26.988 g - 26.685 g
Mass of Mg = 0.303 g
As we come to know that 24 g of Mg gives 80 g of MgO, then amount of Mg from trial 2 that is 0.303 g will produce how many grams of MgO
Apply unity formula
24 g of Mg ≅ 80 g of MgO
0.303 g of Mg ≅ X g of MgO
Do cross multiplication
X g of MgO = 0.303 g x 80 g / 24 g
X g of MgO = 1.01 g
So the theoretical yield of MgO is 1.01 g
__________________________
Part 2
percent yield of MgO for trial 1 and 2 = ?
Solution:
For trial 1
To calculate percent yield we have to know about actual yield of MgO
Mass of MgO = mass of MgO, crucible and lid - mass of empty crucible and lid
Mass of MgO = 27.090 g - 26.685 g
Mass of MgO = 0.24 g
And we also know that
Theoretical yield of MgO for trial 1 = 0.84 g
Formula used
Percent yield = actual yield / theoretical yield x 100
put values in above formula
Percent yield = 0.24 g / 0.84 g x 100
Percent yield = 28.6 %
--------------
For trial 2
To calculate percent yield we have to know about actual yield of MgO
Mass of MgO = mass of MgO, crucible and lid - mass of empty crucible and lid
Mass of MgO = 27.179 g - 26.685 g
Mass of MgO = 0.494 g
And we also know that
Theoretical yield of MgO for trial 2 = 1.01 g
Formula used
Percent yield = actual yield / theoretical yield x 100
put values in above formula
Percent yield = 0.494 g/ 1.01 g x 100
Percent yield = 49.9 %
--------------
Part 3
average percent yield of MgO for the two trials =?
Solution:
As we know
Percent yield trial 2 = 28.6 %
Percent yield trial 2 = 49.9 %
Formula used
Average percent yield = percent yield trial 1 + percent yield trial 2 / 2
Put values in above formula
Average percent yield = 28.6 + 49.9 / 2
Average percent yield = 78.5 / 2
Average percent yield = 39.25 %
Average percent yield of MgO for two trial = 39.25 %
Answer:
Why Is It Important To Classify The Millions Of Species On Earth?
The importance mainly is the Taxonomy
Explanation:
The importance mainly is the Taxonomy, which gives an order to living beings, the taxonomy facilitates the study and compression of the species on Earth. Also taxonomy gives the scientific names and classify by their kingdom, family and species, in addition to including their characteristics
One of the important teachings that the different ways of classifying give us have been the great diversity of living beings that inhabit the Earth.
Even the most recent classifications are provisional, because new species are discovered every year. The main value of all classifications is that they have allowed us to know the different organisms that exist much better.
0.23 mol
Ob
0.38 mol
0.28 mol
Od
0.47 mol
Answer:
0.23 mol
Explanation: