In Problems 41–45 , find a formula for the error E ( x ) in the tangent line approximation to the function near x = a . Using a table of values for E ( x )∕( x − a ) near x = a , find a value of k such that E ( x )∕( x − a ) ≈ k ( x − a ). Check that, approximately, k = f ″( a )∕2 and that E ( x ) ≈ ( f ″( a )∕2)( x − a ) 2 . f ( x ) = x , a = 1
In Problems 41–45 , find a formula for the error E ( x ) in the tangent line approximation to the function near x = a . Using a table of values for E ( x )∕( x − a ) near x = a , find a value of k such that E ( x )∕( x − a ) ≈ k ( x − a ). Check that, approximately, k = f ″( a )∕2 and that E ( x ) ≈ ( f ″( a )∕2)( x − a ) 2 . f ( x ) = x , a = 1
In Problems 41–45, find a formula for the error E(x) in the tangent line approximation to the function near x = a. Using a table of values for E(x)∕(x − a) near x = a, find a value of k such that E(x)∕(x − a) ≈ k(x − a). Check that, approximately, k = f″(a)∕2 and that E(x) ≈ (f″(a)∕2)(x − a)2.
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Please help me with this question as I want to know how can I perform the partial fraction decompostion on this alebgric equation to find the time-domain of y(t)
Please help me with this question as I want to know how can I perform the partial fraction on this alebgric equation to find the time-domain of y(t)
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Differential Equation | MIT 18.01SC Single Variable Calculus, Fall 2010; Author: MIT OpenCourseWare;https://www.youtube.com/watch?v=HaOHUfymsuk;License: Standard YouTube License, CC-BY