Explanation Given information: force = F length = L moment of inertia = I modulus of elasticity = E tip deflection of beam = z d In the given question, we use the method of variable to find the dimensionless quantity from the given data. Total number of parameters given: n = 5 z d = f(F,L,E,I) here there are five parameters, So, n = 5 We define the function as, Primary dimensions of all the given parameters, 1 . z d = tip deflection of beam { z d } = { length } { z d } = { L } { z d } = { L 1 } 2 . F = force { F } = { mass × length time 2 } { F } = { m × L t 2 } { F } = { mL t 2 } { F } = { mLt -2 } 3 . L = length { L } = { length } { L } = { L } { L } = { L 1 } 4 . E = modulus of elasticity { E } = { mass length × time 2 } { E } = { m L × t 2 } { E } = { m Lt 2 } { E } = { mL − 1 t -2 } 5

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Chapter 7, Problem 93P

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The dimensional parameter generated by the given quantities.

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Chapter 7, Problem 92P

Chapter 7, Problem 94P

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Force F is applied at the tip of a cantilever beam of length L and moment of inertia I Fig. . The modulus of elasticity of the beam material is E. When the force is applied, the tip deflection of the beam is z d.Use dimensional analysis to generate a relationship for zd as a function of the independent variables. Name any established dimensionless parameters that appear in your analysis

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The dimensional parameter generated by the given quantities.

Solution Summary: The author explains the method of variable to find the dimensionless quantity from the given data.

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