The Due Process Clause guarantees thata.
the National Government will not interfere with constitutional rights.
b.
States are not bound by their State constitutions in matters of individual rights.
c.
States will not deny people any basic or essential liberties.
d.
State governments will police the National Government.

Answers

Answer 1

Answer: The answer is (A), it was put into place because the government was not being equal with everyone's rights.

Answer 2

Answer:

Final answer:

The Due Process Clause, located in the Fifth and Fourteenth Amendments of the U.S. Constitution, ensures that a person's basic or essential liberties cannot be infringed upon without proper legal procedures and protections. It does not primarily concern with the non-interference of the National Government or the state governments policing the National Government. Individual rights are indeed protected under both State and U.S. Constitutions.

Explanation:

The Due Process Clause is a provision found in both the Fifth and Fourteenth Amendments of the U.S. Constitution. In essence, it ensures that a person cannot be deprived of life, liberty, or property without appropriate legal procedures and protections. From the options you provided, the most accurate is that the Due Process Clause guarantees that 'States will not deny people any basic or essential liberties' (option c). This clause aims to ensure that laws are clear and fair, and that citizens have a fair opportunity to understand them.

As an example, it requires that individuals are given notice when they face legal jeopardy, the right to a fair hearing, and a decision made by a neutral decision-maker. These are all principles embedded within the concept of due process, which indeed ensures our basic and essential liberties are not violated.

Therefore, it does not primarily guarantee non-interference of the National Government with constitutional rights (option a), or that State governments will police the National Government (option d). As for option b, it's not accurate at all. Individual rights are protected by both State and U.S. Constitutions under the principles of due process.

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How many grams of H2 would be formed if 34 grams of carbon reacted with an unlimited amount of H2O? The reaction is:C + H2O CO + H2
1) Is this equation balanced?
2) What is the starting substance?
3) What is the ending substance that is asked for in the problem?
Additional info: The atomic mass of C is 12.01 g/mole. The atomic mass of H2 is 2.016 g/mole.

Answers

1) The equation is already balanced;

Left side: 1C, 2H and 1O
Right side: 1C, 1O, 2H

2) Starting substances: water and carbon
There are two starting substances also called reactants. H2O which is a compound and C which is an element.

3) Ending substance asked for: H2.

This is hydrogen gas.

Stoichiometry:

1 mol of C produces 1 mol of H2

12.01 g of C productes 2.016 grams of H2

Ratio: 2.016 g of H2 / 12.01 g of C = X g of H2 / 34 g of C =>

x = 34 g of C* 2.016 g of H2 / 12.01 g of C= 5.707 g of H2

One problem with using pesticides to control insects on crops is that the insects can develop resistance to the chemicals. How is this similar to the overuse of antibiotics?

Answers

Answer:

Explanation:

Overuse of antibiotics leads to bacteria's resistance against our drugs. This is increasing at an alarming rate and the reason is that overuse of antibiotics kills bacteria that lack the "resistance" gene or gene that can help them survive the antibiotics (similar is the case for insects that die to insecticides). But, some bacteria can have random mutations in their gene that can help them survive the antibiotic (similar is the case for some insects that can survive the insecticide), thus the surviving bacteria give rise to next generation of bacteria that are resistant to the given antibiotic (similar to how insects that survive the insecticide give birth to new insects that are resistant to insecticide too). Soon, every generation adds new antibiotic resistant bacteria (or new insecticide resistant insects in the case of insects) which is dangerous for all of life on this planet. Therefore, both are similar in the sense that new generations of these organisms will be resistant to our weapons against them.

The chemical equation below shows the photosynthesis reaction. 6CO2 + 6H2O mc010-1.jpg C6H12O6 + 6O2 The molar mass of carbon dioxide (CO2) is 44.01 g/mol. The molar mass of water (H2O) is 18.01 g/mol. A reaction uses 528 g of CO2. How many moles of water are used in this reaction?

Answers

Answer:

12 mol of water

Explanation:

$6CO_2 + 6H_2O \longrightarrow C_6H_(12)O_6 + 6O_2$

First we must find the moles of CO2.

We know that 1 mole of co2 has a mass of 4.01 g so how many moles will there be in 528 g.

We apply a simple rule of three

$44.01 g CO_2\longrightarrow 1 mol CO_2\n 528 g CO_2\longrightarrow x\nx= 528/44.01\nx=12 molCO_2$

By stoichiometry we know that for every 6 moles of carbon dioxide 6 moles of water are needed, now if we have 12 moles of carbon dioxide how many moles of water will be needed

We apply a simple rule of three

$6 molCO_2 \longrightarrow 6 mol H_2O\n 12 mol CO_2 \longrightarrow x\nx= ((12).(6))/(6)\n x= 12 mol H_2O$

Given:
6CO2 + 6H2O -> C6H12O6 + 6O2
molar mass of carbon dioxide (CO2) is 44.01 g/mol
molar mass of water (H2O) is 18.01 g/mol
528 g of CO2

Required:
moles of water

Solution:

528 g of CO2/ (44.01 g/mol CO2) = 12 moles CO2

12 moles CO2 (6 moles H2O/ 6 moles CO2) = 12 moles H2O

12 moles H2O (18.01 g/mol H2O) = 216.12 grams H2O

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