6.5 Physical applications (Page 2/11)

Calculus volume 1 Page 2 / 11

This figure has two images. The first is labeled “a” and is a circle with radius r. The center of the circle is labeled 0. The circle also has the positive x-axis beginning at 0, extending through the circle. The second figure is labeled “b”. It has two concentric circles with center at 0 and the x-axis extending out from 0. The concentric circles form a washer. The width of the washer is from xsub(i-1) to xsubi and is labeled delta x. — (a) A thin disk in the xy -plane. (b) A representative washer.

We now approximate the density and area of the washer to calculate an approximate mass, $m_{i} .$ Note that the area of the washer is given by

\begin{matrix} A_{i} & = π {(x_{i})}^{2} - π {(x_{i - 1})}^{2} \\ = π [x_{i}^{2} - x_{i - 1}^{2}] \\ = π (x_{i} + x_{i - 1}) (x_{i} - x_{i - 1}) \\ = π (x_{i} + x_{i - 1}) Δ x . \end{matrix}

You may recall that we had an expression similar to this when we were computing volumes by shells. As we did there, we use $x_{i}^{*} \approx (x_{i} + x_{i - 1}) / 2$ to approximate the average radius of the washer. We obtain

A_{i} = π (x_{i} + x_{i - 1}) Δ x \approx 2 π x_{i}^{*} Δ x .

Using $ρ (x_{i}^{*})$ to approximate the density of the washer, we approximate the mass of the washer by

m_{i} \approx 2 π x_{i}^{*} ρ (x_{i}^{*}) Δ x .

Adding up the masses of the washers, we see the mass $m$ of the entire disk is approximated by

m = \sum_{i = 1}^{n} m_{i} \approx \sum_{i = 1}^{n} 2 π x_{i}^{*} ρ (x_{i}^{*}) Δ x .

We again recognize this as a Riemann sum, and take the limit as $n \to \infty .$ This gives us

m = lim_{n \to \infty} \sum_{i = 1}^{n} 2 π x_{i}^{*} ρ (x_{i}^{*}) Δ x = \int_{0}^{r} 2 π x ρ (x) d x .

We summarize these findings in the following theorem.

Mass–density formula of a circular object

Let $ρ (x)$ be an integrable function representing the radial density of a disk of radius $r .$ Then the mass of the disk is given by

m = \int_{0}^{r} 2 π x ρ (x) d x .

Calculating mass from radial density

Let $ρ (x) = \sqrt{x}$ represent the radial density of a disk. Calculate the mass of a disk of radius 4.

Applying the formula, we find

\begin{matrix} m & = \int_{0}^{r} 2 π x ρ (x) d x \\ = \int_{0}^{4} 2 π x \sqrt{x} d x = 2 π \int_{0}^{4} x^{3 / 2} d x \\ = 2 π {\frac{2}{5} x^{5 / 2} |}_{0}^{4} = \frac{4 π}{5} [32] = \frac{128 π}{5} . \end{matrix}

Got questions? Get instant answers now!

Let $ρ (x) = 3 x + 2$ represent the radial density of a disk. Calculate the mass of a disk of radius 2.

$24 π$

Got questions? Get instant answers now!

Work done by a force

We now consider work. In physics, work is related to force, which is often intuitively defined as a push or pull on an object. When a force moves an object, we say the force does work on the object. In other words, work can be thought of as the amount of energy it takes to move an object. According to physics, when we have a constant force, work can be expressed as the product of force and distance.

In the English system, the unit of force is the pound and the unit of distance is the foot, so work is given in foot-pounds. In the metric system, kilograms and meters are used. One newton is the force needed to accelerate $1$ kilogram of mass at the rate of $1$ m/sec ² . Thus, the most common unit of work is the newton-meter. This same unit is also called the joule . Both are defined as kilograms times meters squared over seconds squared $(kg \cdot m^{2} / s^{2}) .$

When we have a constant force, things are pretty easy. It is rare, however, for a force to be constant. The work done to compress (or elongate) a spring, for example, varies depending on how far the spring has already been compressed (or stretched). We look at springs in more detail later in this section.

Suppose we have a variable force $F (x)$ that moves an object in a positive direction along the x -axis from point $a$ to point $b .$ To calculate the work done, we partition the interval $[a, b]$ and estimate the work done over each subinterval. So, for $i = 0, 1, 2,…, n,$ let $P = {x_{i}}$ be a regular partition of the interval $[a, b],$ and for $i = 1, 2,…, n,$ choose an arbitrary point $x_{i}^{*} \in [x_{i - 1}, x_{i}] .$ To calculate the work done to move an object from point $x_{i - 1}$ to point $x_{i},$ we assume the force is roughly constant over the interval, and use $F (x_{i}^{*})$ to approximate the force. The work done over the interval $[x_{i - 1}, x_{i}],$ then, is given by

Questions & Answers

find the equation of the tangent to the curve y=2x³-x²+3x+1 at the points x=1 and x=3

Esther Reply

derivative of logarithms function

Iqra Reply

how to solve this question

sidra

ex 2.1 question no 11

khansa

anyone can help me

khansa

question please

Rasul

ex 2.1 question no. 11

khansa

i cant type here

khansa

Find the derivative of g(x)=−3.

Abdullah Reply

any genius online ? I need help!!

Guzorochi Reply

how can i help you?

Pina

need to learn polynomial

Zakariya

i will teach...

nandu

I'm waiting

Zakariya

plz help me in question

Abish

How can I help you?

Tlou

evaluate the following computation (x³-8/x-2)

Murtala Reply

teach me how to solve the first law of calculus.

Uncle Reply

teach me also how to solve the first law of calculus

Bilson

what is differentiation

Ibrahim Reply

only god knows😂

abdulkadir

f(x) = x-2 g(x) = 3x + 5 fog(x)? f(x)/g(x)

Naufal Reply

fog(x)= f(g(x)) = x-2 = 3x+5-2 = 3x+3 f(x)/g(x)= x-2/3x+5

diron

pweding paturo nsa calculus?

jimmy

how to use fundamental theorem to solve exponential

JULIA Reply

find the bounded area of the parabola y^2=4x and y=16x

Omar Reply

what is absolute value means?

Geo Reply

Chicken nuggets

Hugh

🐔

🐔🦃 nuggets

(mathematics) For a complex number a+bi, the principal square root of the sum of the squares of its real and imaginary parts, √a2+b2 . Denoted by | |. The absolute value |x| of a real number x is √x2 , which is equal to x if x is non-negative, and −x if x is negative.

Ismael

find integration of loge x

Game Reply

find the volume of a solid about the y-axis, x=0, x=1, y=0, y=7+x^3

Godwin Reply

how does this work

Brad Reply

Can calculus give the answers as same as other methods give in basic classes while solving the numericals?

Cosmos Reply

log tan (x/4+x/2)

Rohan

please answer

Rohan

y=(x^2 + 3x).(eipix)

Claudia

is this a answer

Ismael

<< Chapter < Page Page > Chapter >>

Practice Key Terms 4

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

100% Free Mobile Applications
Receive real-time job alerts and never miss the right job again

Source: OpenStax, Calculus volume 1. OpenStax CNX. Feb 05, 2016 Download for free at http://cnx.org/content/col11964/1.2

Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Calculus volume 1' conversation and receive update notifications?

Ask

	3 Microbiology Final 3 By Madison Christian Start Test
	Biology Exam Final By Savannah Parrish Start Exam
©flickr:	Word Roots and Prefixes By Ellie Banfield Start Quiz
	Socialism Command Economy By Robert Murphy Start Test
	Principles of Marketing By Dionne Mahaffey Start Quiz
	Real Estate Finance By Mldelatte Start Quiz
	Anthropology Language Culture By Richley Crapo Start Assignment
	Fluid Mechanics MCQ By Stephanie Redfern Start Quiz
	5 Biology 05 Plasma Membranes Structure Function By OpenStax Start Quiz
	2 CDL Quiz - Air Brakes Endorsement Part 2 By Jazzycazz Jackson Start Quiz