Which is most likely a molecule in a wall-filling material? C6H6 Na6Ba6 NeNa HC

Answer;

C. Newton

Explanation;

• According to Kepler, the orbital speed of a planet varies, depending on its distance from the Sun. The closer a planet is to the Sun, the stronger the Sun’s gravitational pull on it, and the faster the planet moves. The farther it is from the Sun, the weaker the Sun’s gravitational pull, and the slower it moves in its orbit.
• While thinking on Kepler's laws, Newton realized that all motion, whether it was the orbit of the Moon around the Earth or an apple falling from a tree, followed the same basic principles.

Answer

a. tension (associated with normal faults)

c. diagonal

Explanation

A pull of spring or of string on both ends of an object is called tension. So for the question one, the answer is tension (associated with normal faults)

There are three types of faults. Faults are produced by stress or strain by moving plates. These faults are: normal faults, reverse faults and transcurrent or Strike-slip. Strike-slip faults can also be called transform fault. The answer to the second question is c. diagonal.

1.

Answer:

Tension Force (associated with normal faults)

Explanation:

As we know that tension force is an internal force between the molecules which opposes the tendency of molecules to separate out.

The tension force of string is always in opposite directions at two ends of string and it is always along the length

2.

Answer:

Diagonal

Explanation:

As we know that there are four types of vaults

1) Normal vaults

2) Longitudinal vaults

3) Reverse vaults

4) Transform vaults

Answer:

There are approximately 16 dozes in the final product

Explanation:

The given parameters are;

The viscous lidocaine 2% 30 mL + Maalox 60mL + Diphenhydramine (12.5 mg/5mL elixir)75 mg + Carafate 1gm/10mL 40mL

The total volume becomes;

30 mL + 60 mL + 5 × 75/12.5 mL + 40 mL = 160 mL

1 Teaspoon = 4.928922 mL

Therefore, 2 teaspoon = 2 × 4.928922 mL = 9.857843 mL

Which gives;

The number of doses in 160 mL = 160 mL/(9.857843 mL) = 16.2307312 doses

Which is approximately 16 doses

Therefore, there are approximately 16 dozes in the final product.

The final product contains viscous lidocaine, Maalox, diphenhydramine, and Carafate. There are approximately 10.5 doses in the final product.

The final product is a mixture of viscous lidocaine, Maalox, diphenhydramine, and Carafate. The doctor wants the patient to use a daily dose of 2 teaspoons.

To calculate the number of doses in the final product, we need to determine the total volume of the mixture and divide it by the volume of a single dose.

First, add the volumes of the individual components: 30 mL + 60 mL + 75 mg + 40 mL = 105 mL

Since the doctor wants the patient to use 2 teaspoons (10 mL) per dose, divide the total volume of the mixture (105 mL) by the volume of a single dose (10 mL): 105 mL ÷ 10 mL = 10.5 doses

Therefore, there are approximately 10.5 doses in the final product.

For more such questions on doses, click on:

brainly.com/question/34277095

#SPJ3

Answer:

Emphasizes

Explanation:

The expression of an art is intelligible to those that understand it, as such to make an impression an artist has to emphasize the point they want to communicate

An art is an expression of the personal experiences of the artist or a reaction to events or to reveal the realities as seen by the artist such as global warming and the environment, so as to get the attention of people with the goal to change them, such that a good art changes the most people, hence the need for emphasis.

Answer:

A - emphasizes

1. The relationship between total resistance and individual resistances:

The total resistance(R_total) in a series circuit is equal to the sum of the individual resistances (R1, R2, R3, ...) connected in series. Mathematically, we can express this relationship as:

R_total = R1 + R2 + R3 + ...

In a series circuit, the total resistance increases as more resistors are added in series.

2. The relationship between total voltage and individual voltages:

In a series circuit, the total voltage (V_total) across the circuit is equal to the sum of the individual voltages (V1, V2, V3, ...) across each component. This relationship can be stated as:

V_total = V1 + V2 + V3 + ...

In a series circuit, the total voltage is equal to the sum of the individual voltage drops across each resistor.

3. The relationship between total current and individual currents:

In a series circuit, the total current (I_total) flowing through the circuit is the same at all points in the circuit.

This means that the current passing through each individual resistor is also equal to the total current. Mathematically, we can express this relationship as:

I_total = I1 = I2 = I3 = ...

In a series circuit, the current is constant throughout the circuit, and the same current flows through each component.

To know more about resistance refer here

brainly.com/question/32301085#

#SPJ11