CHEMISTRY HIGH SCHOOL

Gas burning in an engine is an example of a chemical change

phase change

physical change

nuclear change

Answers

Answer 1
Answer: The answer is the first option. Gas burning in an engine is an example of a chemical change. Chemical change is a change where the substance changes in identity or form new substances after undergoing a process. In this case, the gas reacts with oxygen forming combustion products, commonly carbon dioxide and water.

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What is periodic table?

Answers

Chemists have identified 118 elements. These elements have been organized by their size and property into a chart called the periodic table. All matter is created from these elements which include solid, liquid, and gas. Some elements naturally combine into compounds.
its a table of the chemical elements arranged in order of atomic numbers

Who is regarded as father of modern chemistry ?

Answers

Antoine Lavoisier is considered the father of modern chemistry. He was a French nobleman who recognized and named oxygen and isolated the major components of air.

For an ideal gas, classify the following pairs of properties as directly or inversely proportional.P and T
V and n
T and V
P and V
P and n

Answers

For an ideal gas, the ideal gas equation can be used to relate the changes in the conditions of the system. The equation is expressed as:

PV = nRT

Therefore, the following are classified as:
P and T = directly proportional
V and n = directly proportional
T and V = directly proportional
P and V = inversely proportional
P and n = directly proportional

The following pairs of properties as

  • directly proportional :

P and T

V and n

T and V

P and n

  • inversely proportional :

P and V

Further explanation

Some of the laws regarding gas, can apply to ideal gas (volume expansion does not occur when the gas is heated), among others

  • Boyle's law at constant T, P = 1 / V
  • Charles's law, at constant P, V = T
  • Avogadro's law, at constant P and T, V = n

So that the three laws can be combined into a single gas equation, the ideal gas equation

In general, the gas equation can be written

\large{\boxed{\bold{PV=nRT}}}

where

P = pressure, atm

V = volume, liter

n = number of moles

R = gas constant = 0.082 l.atm / mol K

T = temperature, Kelvin

Proportional Comparisons / Directly proportional are comparisons of two or more numbers where one number increases, the other numbers also increase at the same rate

Can be formulated  

\displaystyle \frac {x1} {y1} = \frac {x2} {y2}

Inversely proportional is the comparison of two or more numbers where one number increases, the other number decreases in value

Can be formulated  

\displaystyle \frac {x1} {y2} = \frac {x2} {y1}

The following pairs of properties as directly or inversely proportional.(from ideal gas equation)

P and T  : directly proportional

PV=nRT

V and n  : directly proportional

PV=nRT

T and V  : directly proportional

PV=nRT

P and V  : inversely proportional

\displaystyle \bold{P}=\frac{nRT}{\bold{V}}

P and n : directly proportional

PV=nRT

Learn more

Which equation agrees with the ideal gas law

brainly.com/question/3778152

brainly.com/question/1056445

Which law relates to the ideal gas law

brainly.com/question/6534096

Keywords : ideal gas law, directly proportional, inversely proportional.

Suggest why the ph of the gut secretions varies at different regions in gut answer key anatomy

Answers

The answer in this question is just easy and simple, since there are lots of different enzymes being secreted in the stomach (the enzymes are made of protein and can be denatured by alternation of pH, each of these enzymes required to have a specific optimal pH. 

Answer:

The correct answer is because they work at different pH levels.

Explanation:

The pH varies because the different enzymes secreted in the stomach work at different pH levels. Gastric secretion is the most important stage of digestion since when the food comes into contact with a low pH and the enzymes present, they dissociate it and denature the proteins present.

Have a nice day!

What is the maximum mass of methane (CH4) that can be burned if only 1.0 g of oxygen is available and how do you figure it out?

Answers

Make the reaction: CH_4+2O_2=CO_2+2H_2O
For 2*32=64 grams of oxygen, you can burn 2*16=32 grams of methane (that is, half).
So, our answer is .5g.
Other intermediate calculations are mollecular masses:
\mu_(CH_4)=A_C+4A_H=12+4=16 \n mu_(O_2)=2A_O=2*16=32

Answer:

0.28 g of CH_4

Explanation:

You need a balanced equation first. CH_4 + 2O_2CO_2 + 2H_2O

You need to find the number of moles of oxygen, which is mass divided by the Mr: 1 ÷ 32 = 1/32

Then you find the moles of methane using the mole ration oxygen to methane 2:1.  1/32 ÷ 2 = 1/64

Then you find the mass by multiplying the Mr with the number of moles:

1/64 × 18 = 0.28125 g  = 0.28 g

Methane burns in air at about 1957˚C. Suppose you make a Carnot engine which is fueled by methane at this temperature, and exhausts at 500 ˚C. Suppose you burn 1 kg of methane in this engine (at the burn temperature, the reaction products will be CO₂( g) and H₂O(g) ). How much work in Joules will the engine create?

Answers

Answer:

The Carnot engine operates based on the principles of the Carnot cycle, which is a theoretical idealized thermodynamic cycle. To calculate the work done by the engine, we need to use the formula for the efficiency of the Carnot cycle.

The efficiency of a Carnot engine is given by the equation:

Efficiency = 1 - (T2 / T1),

where T2 is the exhaust temperature in Kelvin and T1 is the burn temperature in Kelvin.

First, we need to convert the temperatures from Celsius to Kelvin.

The burn temperature is 1957 ˚C, so we add 273 to convert it to Kelvin:

T1 = 1957 + 273 = 2230 K.

The exhaust temperature is 500 ˚C, so we add 273 to convert it to Kelvin:

T2 = 500 + 273 = 773 K.

Now we can calculate the efficiency:

Efficiency = 1 - (T2 / T1) = 1 - (773 / 2230).

Next, we need to calculate the heat input, which is the energy released by burning 1 kg of methane.

The energy released by burning methane can be calculated using the heat of combustion of methane, which is -891 kJ/mol.

To convert this to joules per kilogram, we need to know the molar mass of methane, which is 16 g/mol.

1 kg of methane is equal to 1000 g, so the number of moles of methane in 1 kg is:

1000 g / 16 g/mol = 62.5 mol.

The heat released by burning 1 kg of methane is:

-891 kJ/mol * 62.5 mol = -55,687.5 kJ.

To convert this to joules, we multiply by 1000:

-55,687.5 kJ * 1000 = -55,687,500 J.

Now we can calculate the work done by the engine:

Work = Efficiency * Heat input.

Substituting the values we calculated:

Work = (1 - (773 / 2230)) * (-55,687,500 J).

Finally, we can calculate the work done by the engine in joules.

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