10. If a car travels from Town A to Town B on one road at different speeds and stops at red lights, knowing the distance between the towns and the total time of the trip can allow you to calculate A. instantaneous velocity.B. deceleration.C. average velocity.D. uniform velocity.

Answers

Answer 1

Answer:

Answer: The correct option is C.

Explanation: Average velocity is defined as the displacement divided by the total time taken by the object.

Mathematically,

$\text{Average Velocity}=\frac{Displacement}{\text{Total time}}$

We are given, the distance between the two towns and also the total time, so we can easily calculate the average velocity.

Hence. the correct option is C.

Answer 2

Answer:

Answer : Option C) Average Velocity

Explanation :

As we have the given information about the different speed and the distances between the town and the total trip time, then it will allow anyone to calculate the average velocity of the car.

The average velocity is defined as the displacement divided by the time taken. This will help to determine the average velocity the car was moving with while traveling to various distances.

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Knowing the chemical properties of a substance will tell you how the substancea. looks.
c. can be broken down into atoms.
b. smells.
d. reacts with other substances.

Answers

Whereas physical properties of a substance tells us about how the substance looks, smells, etc, the chemical properties of a substance basically tells us how the substance will react with other substances. Therefore, knowing the chemical property of a substance tells us how the substance reacts with others.Hope this helps. Let me know if you need additional help!

d. reacts with other substances.

What has the strongest intermolecular forces of attraction?

Answers

The strength of intermolecular forces of attraction varies depending on the type of molecules involved. In general, the order of increasing strength of intermolecular forces is as follows:

1. **London Dispersion Forces (Van der Waals Forces):** These are the weakest intermolecular forces and occur in all molecules. They are caused by temporary fluctuations in electron distribution, leading to temporary partial charges. London dispersion forces are stronger in larger and more polarizable molecules.

2. **Dipole-Dipole Forces:** These forces occur between polar molecules with permanent dipoles. They are stronger than London dispersion forces and result from the attraction between the positive end of one molecule and the negative end of another.

3. **Hydrogen Bonding:** This is the strongest type of intermolecular force. It occurs when hydrogen is bonded to a highly electronegative atom (such as nitrogen, oxygen, or fluorine) and is attracted to another electronegative atom in a different molecule. Hydrogen bonds are responsible for the unique properties of substances like water and ammonia.

So, hydrogen bonding generally represents the strongest intermolecular force of attraction among these three types. However, it's important to note that the actual strength of these forces can also depend on factors such as molecular size, shape, and temperature.

Hope you understand

Fe2O3+2Al=Al2O3+2Fe A welder has 1.873 × 10^2 g Fe2O3 and 94.51 g Al in his welding kit. Which reactant will he run out of first? (options: Fe2O3 or Al.......it's Fe2O3). How much of this reactant should he order to make sure he runs out of both reactants at the same time? He should order ___g of the limiting reactant.

Answers

Answer: a) $Fe_2O_3$

b) 92.1 g

Explanation:

To calculate the moles, we use the equation:

$\text{Number of moles}=\frac{\text{Given mass}}{\text {Molar mass}}$

a) moles of $Fe_2O_3$

$\text{Number of moles}=(1.873* 10^2 g)/(159.69g/mol)=1.173moles$

b) moles of $Al$

$\text{Number of moles}=(94.51g)/(27g/mol)=3.500moles$

$Fe_2O_3+2Al\rightarrow Al_2O_3+2Fe$

According to stoichiometry :

1 mole of $Fe_2O_3$ require 2 moles of $Al$

Thus 1.173 $Cl_2$ require= $(2)/(1)* 1.173=2.346moles$ of $Al$

Thus $Fe_2O_3$ is the limiting reagent as it limits the formation of product. Thus $Fe_2O_3$ will run out first.

$Al$ is the excess reagent as (3.500-2.346)= 1.154 moles are left unreacted.

2 moles of $Al$ require 1 mole of $Fe_2O_3$

3.500 moles of $Al$ require= $(1)/(2)* 3.500=1.750moles$ of $Fe_2O_3$

Moles of $Fe_2O_3$ required = (1.750-1.173) = 0.577

Mass of $Fe_2O_3=moles* {\text {Molar mass}}=0.577moles* 159.69g/mol=92.1g$

Thus he should order 92.1 g of the limiting reactant.

Answer:

92.41g

Explanation:

Explain how much risk you think your area has for water scarcity????

Answers

Not very much because half the time the water is purified but just normal water in my area probably has serious levels of scarcity.

Answer:

Explanation: Over pumping refers to pumping fresh water and reducing the level of an underground layer of water. In coastal areas, the lower underground layer of water is infiltrated with salt water, eventually increasing the salinity of the underground layer of water to the point that it is not drinkable. The scarcity of water in the coastal areas because the water in the coastal areas is not drinkable.

Define the term ''pH' stand for?

Answers

PH tells us how acidic or alkali a solution is.

The Term pH stands for: Power of Hydrogen!

Which of the following events on the sun affects the Earth in either a direct or indirect way?A. Corona mass ejection or CMEs only
B. Solar flares only
C. Solar systems only
D. All of the above

Answers

Answer:

Explanation:

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