<u>Answer:</u> The equilibrium concentration of hydrogen gas is 0.0222 M
<u>Explanation:</u>
We are given:
Initial concentration of hydrogen gas = 0.041 M
Initial concentration of iodine vapor = 0.041 M
Initial concentration of hydrogen iodide = 0.115 M
For the given chemical equation:
Initial: 0.041 0.041 0.115
At eqllm: 0.041-x 0.041-x 0.115+2x
The expression of for above equation follows:
We are given:
Putting values in above equation, we get:
Neglecting the value of x = 0.0816 because, equilibrium concentration cannot be greater than the initial concentration
So, equilibrium concentration of hydrogen gas =
Hence, the equilibrium concentration of hydrogen gas is 0.0222 M
Answer:
B
Explanation: electricity can not go throughout a open current
Answer:
An <u>Orbital </u>is the probability distribution of an electron in an atom or molecule.
Explanation:
As we know atom consists of sub-particles commonly known as protons, neutrons and electrons. The outer space around the nucleus where the probability of finding electrons is maximum is known as orbital. As the electrons are not precisely ordered around the nucleus hence it is not easy to tell the exact position of an electron.
Hence, four quantum numbers are used to locate the position of electrons around the nucleus.
i) Principle Quantum Number:
This number explains the main energy level which tend to increase in energy as the distance of electrons from nucleus are increased. Principle Quantum Numbers are integer number ranging from one to infinity. Hence, increase in this quantum number results in increase of the size of orbital.
ii) Azimuthal Quantum Number:
This Quantum Number explains the direction of particular orbital in 3-dimensional space. Also it is responsible for the shape of an orbital.
iii) Magnetic Quantum Number:
This Quantum Number also tells the direction of orbital in 3D space with respect to x, y and z axis.
iv) Spin Quantum Number:
This Quantum Number tells about the spin direction of an electron about its axis which may be clockwise or anticlockwise.
Answer: shining a bright light on the object and testing for decomposition
Decomposition is the separation of a molecule into its elements or simpler compounds.
And a chemical property is the ability of a
substance to combine or to become one or more substances.
Then, testing the ability of an object for decomposition is testing a chemical property.