mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...

, a planar lamina (or plane lamina) is a figure representing a thin, usually uniform, flat layer of the solid. It serves also as an idealized model of a planar cross section of a solid body in

integration Integration may refer to: Biology *Multisensory integration *Path integration * Pre-integration complex, viral genetic material used to insert a viral genome into a host genome *DNA integration, by means of site-specific recombinase technology, ...

. Planar laminas can be used to determine

moments of inertia The moment of inertia, otherwise known as the mass moment of inertia, angular mass, second moment of mass, or most accurately, rotational inertia, of a rigid body is a quantity that determines the torque needed for a desired angular accelera ...

, or

center of mass In physics, the center of mass of a distribution of mass in space (sometimes referred to as the balance point) is the unique point where the weighted relative position of the distributed mass sums to zero. This is the point to which a force may ...

of flat figures, as well as an aid in corresponding calculations for 3D bodies.

Definition

Basically, a planar lamina is defined as a figure (a

closed set In geometry, topology, and related branches of mathematics, a closed set is a set whose complement is an open set. In a topological space, a closed set can be defined as a set which contains all its limit points. In a complete metric space, a cl ...

) of a finite area in a plane, with some mass . This is useful in calculating

for a constant density, because the mass of a lamina is proportional to its area. In a case of a variable density, given by some (non-negative)

surface density The area density (also known as areal density, surface density, superficial density, areic density, mass thickness, column density, or density thickness) of a two-dimensional object is calculated as the mass per unit area. The SI derived unit is ...

function

\rho(x,y),

the mass

m

of the planar lamina is a planar integral of over the figure: :

m = \iint_D\rho(x,y)\,dx\,dy

Properties

The center of mass of the lamina is at the point :

\left(\frac,\frac\right)

where

M_y

is the moment of the entire lamina about the y-axis and

M_x

is the moment of the entire lamina about the x-axis: :

M_y = \lim_\,\sum_^\,\sum_^\,x^\,\rho\ (x^,y^)\,\Delta D = \iint_D x\, \rho\ (x,y)\,dx\,dy

M_x = \lim_\,\sum_^\,\sum_^\,y^\,\rho\ (x^,y^)\,\Delta D = \iint_D y\, \rho\ (x,y)\,dx\,dy

with summation and integration taken over a planar domain

D

Example

Find the center of mass of a lamina with edges given by the lines

x=0,

y=x

and

y=4-x

where the density is given as

\rho\ (x,y)\,=2x+3y+2

. For this the mass

m

must be found as well as the moments

M_y

and

M_x

. Mass is

m = \iint_D\rho(x,y)\,dx\,dy

which can be equivalently expressed as an

iterated integral In multivariable calculus, an iterated integral is the result of applying integrals to a function of more than one variable (for example f(x,y) or f(x,y,z)) in a way that each of the integrals considers some of the variables as given constants. ...

: :

m = \int_^2 \int_^ \,(2x+3y+2)\,dy\,dx

The inner integral is: :

\int_^ \,(2x+3y+2)\,dy

\qquad = \left.\left(2xy+\frac+2y\right)\_^

\qquad = \left x(4-x)+\frac+2(4-x)\right \left x(x)+\frac+2(x)\right /math>
: \qquad = -4x^2-8x+32 Plugging this into the outer integral results in:

: \beginm & =\int_^2\left(-4x^2-8x+32\right)\,dx \\
 & = \left.\left(-\frac-4x^2+32x\right)\_^2 \\
 & = \frac \end Similarly are calculated both moments:

: M_y = \iint_D x\,\rho(x,y)\,dx\,dy = \int_^2 \int_^ x\,(2x+3y+2)\,dy\,dx with the inner integral:

: \int_^ x\,(2x+3y+2)\,dy : \qquad = \left.\left(2x^2y+\frac+2xy\right)\_^: \qquad = -4x^3-8x^2+32x which makes:

: \begin M_y & = \int_^2(-4x^3-8x^2+32x)\,dx \\
 & = \left.\left(-x^4-\frac+16x^2\right)\_^2 \\
 & = \frac \end and

: \beginM_x & = \iint_D y\,\rho(x,y)\,dx\,dy = \int_^2 \int_^ y\,(2x+3y+2)\,dy\,dx \\
 & = \int_0^2(xy^2+y^3+y^2)\Big, _^\,dx \\
 & = \int_0^2(-2x^3+4x^2-40x+80)\,dx \\
 & = \left.\left(-\frac+\frac-20x^2+80x\right)\_^2 \\
 & = \frac \end Finally, the center of mass is

: \left( \fracm, \fracm \right) =
    \left( \frac, \frac \right) =
    \left( \frac 57, \frac \right)

References

{{Reflist, refs= {{Citation, url=https://www.wolframalpha.com/examples/mathematics/geometry/plane-geometry/planar-laminae/ , title=Planar Laminae , website=

WolframAlpha WolframAlpha ( ) is an answer engine developed by Wolfram Research. It answers factual queries by computing answers from externally sourced data. WolframAlpha was released on May 18, 2009 and is based on Wolfram's earlier product Wolfram Mathe ...

, access-date=2021-03-09 {{MathWorld , id=Lamina , title=Lamina , author= , access-date=2021-03-09 , ref= Measure theory