College Physics II – Mechanics, Sound, Oscillations, and Waves
Definition
Linear mass density is the measure of mass per unit length of a one-dimensional object, such as a string or rod. It is typically denoted by the symbol $\lambda$ and expressed in units of kg/m.
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Linear mass density ($\lambda$) is crucial for calculating the center of mass and moments of inertia for elongated objects.
The formula to find linear mass density is $\lambda = \frac{m}{L}$, where $m$ is the mass and $L$ is the length.
In problems involving waves on strings, linear mass density affects wave speed according to the equation $v = \sqrt{\frac{T}{\lambda}}$, where $T$ is tension.
For a non-uniform object, linear mass density may vary along its length and can be represented as a function, $\lambda(x)$.
To determine moments of inertia for rods or beams with varying linear mass densities, integral calculus might be necessary.
Review Questions
What are the units commonly used for linear mass density?
How does linear mass density affect the speed of waves on a string under tension?
What is the relationship between an object's total mass, its length, and its linear mass density?
A measure of an object's resistance to changes in its rotation rate; depends on both the distribution of an object's mass and the axis about which it rotates.