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3 years ago

Body systems are groups of organs and tissues that work together to perform important jobs for the body.

Chemistry

1 answer:

tangare [24]3 years ago

4 0

Answer:

We can define body systems as groups of organs and tissues that work together to perform important jobs for the body.

...

Respiratory System. ...

Digestive System or Excretory System. ...

Cardiovascular or Circulatory System. ...

Renal System or Urinary System. ...

Endocrine System. ...

Nervous System.

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3 years ago

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patriot [66]

Answer:

$Cl_{2}$ has boiling point of 238 K

Explanation:

Boiling point depends on different intermolecular force such as molecular wight, dipole-dipole attraction force, hydrogen bonding, ionic attraction force.

Homonuclear diatomic molecules are covalent non-polar molecules and thereby free from dipole-dipole attraction force, hydrogen bonding and ionic interaction forces.

Hence, boiling point of homonuclear diatomic molecules depends solely on molecular weight.

We know, higher the molecular weight of a molecule, higher will be its boiling point. This phenomenon can be realized in terms of increasing london dispersion force with increase in molecular weight.

Decreasing order of molecular weight of halogen molecules :

$I_{2}$ > $Br_{2}$ > $Cl_{2}$ > $F_{2}$

So, decresing order of boiling point of halogen molecules:

$I_{2}$ > $Br_{2}$ > $Cl_{2}$ > $F_{2}$

Hence $Cl_{2}$ has boiling point of 238 K

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3 years ago

A) For the following reaction, K > 1. Classify each of the reactants and products based on their strength as Bronsted-Lowry a

Aleks04 [339]

Answer:

Explanation:

According to Bronsted-Lowry acids or base theory , the reagent capable of giving hydrogen ion or proton will be acid and that which accepts hydrogen ion or proton will be base .

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Hence HNO₂ is giving H⁺ or proton and C₉H₇N is accepting proton to form

C₉H₇NH⁺ .

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B )

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C₉H₇NH⁺ is giving H⁺ so it is a bronsted acid and NO₂⁻ is accepting H⁺ so it is a bronsted base .

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3 years ago

The table compares the number of electrons in two unknown neutral atoms.

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Answer:

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