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2 years ago

In an isotope, which subatomic particle varies in number ?

Chemistry

1 answer:

wolverine [178]2 years ago

8 0

The number of neutrons vary in isotopes

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Question 3 of 10

PIT_PIT [208]

Answer:

the moluculer formula is the answer

Explanation:

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2 years ago

Why sometimes the electrons of an atom transfer to higher energy level

Elenna [48]

Answer:

According to Bohr, the amount of energy needed to move an electron from one zone to another is a fixed, finite amount. ... The electron with its extra packet of energy becomes excited, and promptly moves out of its lower energy level and takes up a position in a higher energy level. This situation is unstable, however.

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2 years ago

You have been asked to draw a Bohr model of the element carbon. How would you arrange the dots that represent electrons?

Dvinal [7]

Answer:

You have been asked to draw a Bohr model of the element carbon. How would you arrange the dots that represent electrons? They would be embedded in a solid core. They would be in rings around the nucleus

7 0

2 years ago

You can find the pH of a substance by using

soldier1979 [14.2K]

The correct answer is C. Litmus Indicator

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2 years ago

A vessel of 120ml capacity contains a certain amount of gas at 35°C and 1.2 bar pressure. The gas is transferred to another vess

Rainbow [258]

Given parameters:

Initial volume = 120ml

Initial temperature = 35°C

Initial pressure = 1.2bar

Final volume = 180ml

Final temperature = 35°C

Unknown:

Final pressure = ?

To solve this problem, we apply the combined gas law. The expression is given below;

$\frac{P_{1}V_{1} }{T_{1} } = \frac{P_{2}V_{2} }{T_{2} }$

Where P₁ is the initial pressure

P₂ is the final pressure

V₁ is the initial volume

V₂ is the final volume

T₁ is the initial temperature

T₂ is the final temperature

We need to convert the parameters to standard units

take the volume to dm³;

1000ml = 1dm³

120ml = $\frac{120}{1000}$ dm³ = 0.12dm³ = initial volume

Final volume;

1000ml = 1dm³

180ml = $\frac{180}{1000}$ dm³ = 0.18dm³

Now, the temperature;

K = 273 + °C

Initial temperature = 273 + 35 = 308k

Final temperature = 308k

We then input the parameters into the equation;

$\frac{1.2bar x 0.12 }{308} = \frac{P_{2} x 0.18 }{308}$

Solving for P₂;

P₂ = 0.8bar

The new pressure or final pressure in the vessel is 0.8bar

5 0

2 years ago