Q1. Repeat the candy experiment again, now with different type of candy 1. Smooth unwrapped candies of white and black color 2. wrapped with wrinkly plastic candies of white and black color After shaking in both the experiments how will the results differ in wrapped and unwrapped candies?
If you repeat the candy experiment using smooth unwrapped candies of white and black color, you may find that the smooth candies mix together more easily than the wrapped candies. This is because the smooth candies do not have any additional surface texture or layers that could impede their movement.
On the other hand, if you use wrapped candies with wrinkly plastic, you may find that the candies do not mix as easily. This is because the wrinkly plastic adds
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What is Pauli exclusion principle?
Pauli's exclusion principle is a fundamental principle in quantum mechanics that states that no two electrons in an atom can have the same set of quantum numbers. This means that if two electrons occupy the same energy level in an atom, they must have different values for their quantum numbers.
The quantum numbers that are used to describe the properties of an electron in an atom are the principal quantum number (n), the angular momentum quantum number (l), the magnetic quantum number (m_l), and the spin quantum number (m_s). According to Pauli's exclusion principle, if two electrons occupy the same energy level in an atom, they must have different values for each of these quantum numbers.
Pauli's exclusion principle has important consequences for the behavior of electrons in an atom. It determines the distribution of electrons in an atom and affects the chemical properties of an atom. It also explains the periodic table of the elements, which arranges the elements according to the number of electrons in their atoms.
Overall, Pauli's exclusion principle is a fundamental principle in quantum mechanics that states that no two electrons in an atom can have the same set of quantum numbers. It has important consequences for the behavior of electrons in an atom and affects the chemical properties of an