 6.6.1: If a constant force of 5 lb moves an object 10 ft, then thework don...
 6.6.2: A newtonmeter is also called a . A dynecentimeteris also called an .
 6.6.3: Suppose that an object moves in the positive direction alonga coord...
 6.6.4: A force F(x) = 10 2x N applied in the positive xdirectionmoves an ...
 6.6.5: A constant force of 10 lb in the positive xdirection isapplied to ...
 6.6.6: A spring exerts a force of 6 N when it is stretched from itsnatural...
 6.6.7: A spring exerts a force of 100 N when it is stretched 0.2 mbeyond i...
 6.6.8: A spring whose natural length is 15 cm exerts a force of45 N when s...
 6.6.9: Assume that 10 ftlb of work is required to stretch a spring1 ft bey...
 6.6.10: 1013 TrueFalse Determine whether the statement is true orfalse. Exp...
 6.6.11: 1013 TrueFalse Determine whether the statement is true orfalse. Exp...
 6.6.12: 1013 TrueFalse Determine whether the statement is true orfalse. Exp...
 6.6.13: 1013 TrueFalse Determine whether the statement is true orfalse. Exp...
 6.6.14: A cylindrical tank of radius 5 ft and height 9 ft is twothirdsfill...
 6.6.15: Solve Exercise 14 assuming that the tank is halffilled withwater.
 6.6.16: A coneshaped water reservoir is 20 ft in diameter acrossthe top an...
 6.6.17: The vat shown in the accompanying figure contains waterto a depth o...
 6.6.18: The cylindrical tank shown in the accompanying figure isfilled with...
 6.6.19: A swimming pool is built in the shape of a rectangular parallelepip...
 6.6.20: How much work is required to fill the swimming pool inExercise 19 t...
 6.6.21: A 100 ft length of steel chain weighing 15 lb/ft is danglingfrom a ...
 6.6.22: A 3 lb bucket containing 20 lb of water is hanging at theend of a 2...
 6.6.23: A rocket weighing 3 tons is filled with 40 tons of liquid fuel.In t...
 6.6.24: It follows from Coulombs law in physics that two like electrostatic...
 6.6.25: It follows from Newtons Law of Universal Gravitation thatthe gravit...
 6.6.26: (a) The formula w(x) = k/x2 in Exercise 25 is applicableto all cele...
 6.6.27: The worlds first commercial highspeed magnetic levitation(MAGLEV) ...
 6.6.28: Assume that a Mars probe of mass m = 2.00 103 kg issubjected only t...
 6.6.29: On August 10, 1972 a meteorite with an estimated massof 4 106 kg an...
 6.6.30: Writing After reading Examples 35, a student classifieswork problem...
 6.6.31: Writing How might you recognize that a problem can besolved by mean...
Solutions for Chapter 6.6: WORK
Full solutions for Calculus: Early Transcendentals,  10th Edition
ISBN: 9780470647691
Solutions for Chapter 6.6: WORK
Get Full SolutionsThis expansive textbook survival guide covers the following chapters and their solutions. Chapter 6.6: WORK includes 31 full stepbystep solutions. Calculus: Early Transcendentals, was written by and is associated to the ISBN: 9780470647691. Since 31 problems in chapter 6.6: WORK have been answered, more than 42446 students have viewed full stepbystep solutions from this chapter. This textbook survival guide was created for the textbook: Calculus: Early Transcendentals, , edition: 10.

Aphelion
The farthest point from the Sun in a planet’s orbit

Closed interval
An interval that includes its endpoints

Complex fraction
See Compound fraction.

Cone
See Right circular cone.

Dependent variable
Variable representing the range value of a function (usually y)

Difference of functions
(ƒ  g)(x) = ƒ(x)  g(x)

equation of an ellipse
(x  h2) a2 + (y  k)2 b2 = 1 or (y  k)2 a2 + (x  h)2 b2 = 1

Event
A subset of a sample space.

Horizontal asymptote
The line is a horizontal asymptote of the graph of a function ƒ if lim x: q ƒ(x) = or lim x: q ƒ(x) = b

Horizontal shrink or stretch
See Shrink, stretch.

Inverse cosecant function
The function y = csc1 x

Linear programming problem
A method of solving certain problems involving maximizing or minimizing a function of two variables (called an objective function) subject to restrictions (called constraints)

Monomial function
A polynomial with exactly one term.

Positive linear correlation
See Linear correlation.

Quotient identities
tan ?= sin ?cos ?and cot ?= cos ? sin ?

Quotient of functions
a ƒ g b(x) = ƒ(x) g(x) , g(x) ? 0

Resistant measure
A statistical measure that does not change much in response to outliers.

Scientific notation
A positive number written as c x 10m, where 1 ? c < 10 and m is an integer.

Sum of a finite arithmetic series
Sn = na a1 + a2 2 b = n 2 32a1 + 1n  12d4,

yaxis
Usually the vertical coordinate line in a Cartesian coordinate system with positive direction up, pp. 12, 629.