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To find the product of gravity (g) and h/(2π) using dimensional analysis, we can break down each term into its fundamental dimensions and then analyze how they combine.

Let's assign the following dimensions:

  • [g] represents the dimension of acceleration due to gravity.
  • [h] represents the dimension of length.

Now, let's analyze each term individually:

  1. Gravity (g): Gravity is typically measured in units of acceleration, such as meters per second squared (m/s²). Therefore, we can represent the dimension of gravity as [g] = [L][T]⁻², where [L] represents length and [T] represents time.

  2. h/(2π): The variable h represents length, so [h] = [L]. The term 2π is dimensionless since it is simply a numerical factor.

Combining these dimensions, we have: [g] * [h/(2π)] = [L][T]⁻² * [L] / (2π)

Now, to simplify the expression, we can apply dimensional analysis to the numerator and denominator separately:

For the numerator: [L] * [T]⁻² * [L] = [L]²[T]⁻²

For the denominator: 2π is dimensionless, so we don't need to consider it in the analysis.

Combining the simplified numerator and denominator, we have: [L]²[T]⁻² / (2π)

Therefore, the product of gravity and h/(2π) using dimensional analysis is represented by the expression [L]²[T]⁻² / (2π).

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