The work done by a sliding piston is given by the expression wd = ∫3t2 + 2t dt use integration to determine the work done by the piston between t = 1s and t = 3s.

Calculus: Early Transcendentals
8th Edition
ISBN:9781285741550
Author:James Stewart
Publisher:James Stewart
Chapter1: Functions And Models
Section: Chapter Questions
Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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  1. The work done by a sliding piston is given by the expression wd = ∫3t2 + 2t dt use integration to determine the work done by the piston between t = 1s and  t = 3s.
  2. Given that the velocity of a body is given by v  =  u + at where u is the initial velocity, t is the time in seconds and a is the acceleration, use integration to derive an expression for the distance the body has travelled in t seconds.
  3. find ò cos(3x + 4) dx ( Hint Using the substitution u = 3x + 4. ) 
  4. find dx                     ( Hint Using integration by parts )
Task 2
Scenario
a) The work done by a sliding piston is given by the expression wd = J3t2 + 2t dt use
integration to determine the work done by the piston betweent = 1s and t = 3s.
b) Given that the velocity of a body is given by v = u + at where u is the initial
velocity, t is the time in seconds and a is the acceleration, use integration to derive
an expression for the distance the body has travelled in t seconds.
c) find cos(3x + 4) dx
( Hint Using the substitution u = 3x + 4. )
d) find ſ xlnx dx
( Hint Using integration by parts )
Internal Use
1+x
e) find
dx
(1-x)(2+x)
( Hint use partial fractions )
Transcribed Image Text:Task 2 Scenario a) The work done by a sliding piston is given by the expression wd = J3t2 + 2t dt use integration to determine the work done by the piston betweent = 1s and t = 3s. b) Given that the velocity of a body is given by v = u + at where u is the initial velocity, t is the time in seconds and a is the acceleration, use integration to derive an expression for the distance the body has travelled in t seconds. c) find cos(3x + 4) dx ( Hint Using the substitution u = 3x + 4. ) d) find ſ xlnx dx ( Hint Using integration by parts ) Internal Use 1+x e) find dx (1-x)(2+x) ( Hint use partial fractions )
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