A thin rod of length L = 5 m and mass m has a linear density X(x) = Ax³ where x is the distance from the rod's left end. X(x) has units of kg/m and A = 6.38 with appropriate units that can't be displayed nicely due to Canvas limitations. Calculate the rod's moment of inertia I about an axis through x = 0 and perpendicular to the rod's length. (Hint: Evaluate the integral I = fr² dm where r = x is the distance from the axis to each element of mass dm = X(x) dx. Note: The rod's total mass mass m isn't needed but, if you would like to know it, you can find it by evaluating the integral m = f dm = f (x) dx.) I = kg m² .

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A thin rod of length L = 5 m and mass m has a linear density A(x) = Ax³ where x
is the distance from the rod's left end. X(x) has units of kg/m and A = 6.38 with
appropriate units that can't be displayed nicely due to Canvas limitations. Calculate
the rod's moment of inertia I about an axis through x = 0 and perpendicular to the
rod's length.
(Hint: Evaluate the integral I = fr² dm where r = x is the distance from the axis
to each element of mass dm = X(x) dx . Note: The rod's total mass mass m isn't
needed but, if you would like to know it, you can find it by evaluating the integral
m = f dm = f(x) dx.)
I=
kg m²
Transcribed Image Text:A thin rod of length L = 5 m and mass m has a linear density A(x) = Ax³ where x is the distance from the rod's left end. X(x) has units of kg/m and A = 6.38 with appropriate units that can't be displayed nicely due to Canvas limitations. Calculate the rod's moment of inertia I about an axis through x = 0 and perpendicular to the rod's length. (Hint: Evaluate the integral I = fr² dm where r = x is the distance from the axis to each element of mass dm = X(x) dx . Note: The rod's total mass mass m isn't needed but, if you would like to know it, you can find it by evaluating the integral m = f dm = f(x) dx.) I= kg m²
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