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The collision flux of a monoatomic gas on copper surface is 3.0 x 1018 m–2  s–1. Note that copper surface forms a square lattice with lattice constant of 210 pm. If the sticking coefficient of the atom with copper is 1.0, the time taken by the gas to form a complete monolayer on the surface is __________ s. (Round off to one decimal place) 
    Correct answer is between '7.5,7.7'. Can you explain this answer?
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    The collision flux of a monoatomic gas on copper surface is 3.0 x 1018...
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    The collision flux of a monoatomic gas on copper surface is 3.0 x 1018...
    The collision flux of a monoatomic gas on a copper surface can be calculated using the formula:

    Collision Flux = (Number of collisions per unit area) x (Average velocity of gas particles)

    Given that the collision flux is 3.0 x 10^18 m^-2, we can assume that this is the value for the number of collisions per unit area.

    Let's assume the average velocity of the gas particles is v m/s.

    Therefore, the collision flux is:

    3.0 x 10^18 m^-2 = (Number of collisions per unit area) x (Average velocity of gas particles)

    3.0 x 10^18 m^-2 = (3.0 x 10^18 m^-2) x v

    Simplifying, we find:

    v = 1 m/s

    Therefore, the average velocity of the gas particles is 1 m/s.
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    The collision flux of a monoatomic gas on copper surface is 3.0 x 1018 m–2 s–1. Note that copper surface forms a square lattice with lattice constant of 210 pm. If the sticking coefficient of the atom with copper is 1.0, the time taken by the gas to form a complete monolayer on the surface is __________ s. (Round off to one decimal place)Correct answer is between '7.5,7.7'. Can you explain this answer?
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    The collision flux of a monoatomic gas on copper surface is 3.0 x 1018 m–2 s–1. Note that copper surface forms a square lattice with lattice constant of 210 pm. If the sticking coefficient of the atom with copper is 1.0, the time taken by the gas to form a complete monolayer on the surface is __________ s. (Round off to one decimal place)Correct answer is between '7.5,7.7'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about The collision flux of a monoatomic gas on copper surface is 3.0 x 1018 m–2 s–1. Note that copper surface forms a square lattice with lattice constant of 210 pm. If the sticking coefficient of the atom with copper is 1.0, the time taken by the gas to form a complete monolayer on the surface is __________ s. (Round off to one decimal place)Correct answer is between '7.5,7.7'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The collision flux of a monoatomic gas on copper surface is 3.0 x 1018 m–2 s–1. Note that copper surface forms a square lattice with lattice constant of 210 pm. If the sticking coefficient of the atom with copper is 1.0, the time taken by the gas to form a complete monolayer on the surface is __________ s. (Round off to one decimal place)Correct answer is between '7.5,7.7'. Can you explain this answer?.
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