Moment Of Inertia Of A Hinged Door

A uniform thin solid door has height 2 2 m width 87m and mass 23kg.

Moment of inertia of a hinged door. Moment of inertia denoted by i measures the extent to which an object resists rotational acceleration about a particular axis and is the rotational analogue to mass mass moments of inertia have units of dimension ml 2 mass length 2 it should not be confused with the second moment of area which is used in beam calculations the mass moment of inertia is often also known as the. Id moment of inertia of mass of door at door s centroid if door was a point 16cm from edge of door m r 2 with r being distance of centroid from a point 16cm from edge of door. A dumbbell has a connecting bar of negligible mass. The moment of inertia of an object depends on where the axis of rotation is.

What is the moment of inertia of the door about the axis through its hinges. The moment of inertia of the door is then r 2 d m. Find the location of its center of mass x cm if the end masses m 1 and m 2 are 5 0 kg and 10 0 kg respectively. The moment of inertia of an infinitesimal mass element d m is d m r 2 in which r represents the distance from the mass element to the axis about which we are considering the moment of inertia.

Are any of the data unnecessary. Dm λhdr where λ is mass over the length h. Homework equations i 1 12 m a 2 b 2 mr 2 parallel axis theorem the attempt at a solution i initially used the door height and width as a and b i m sure this is right and used the door thickness as the distance between axis. Find the moment of inertia for rotation on its hinges.

Find its moment of inertia for rotation on its hinges. The width of the door is unnecessary. A uniform thin solid door has a height of 2 2 m a width of 0 87 m and a mass of 23 kg. R 0 95 2 16.