Proof of Continuity – A split function with first degree polynomial functions – Exercise 6220 Post category:Continuity by Definition Post comments:0 Comments Exercise Given the function f(x) = \begin{cases} 2x, &\quad x\leq 1\\ 2-x, &\quad x \geq 1\\ \end{cases} Is it continuous? Final Answer Show final answer No Solution Coming soon… Share with Friends Read more articles Previous PostProof of Continuity – A split function with polynomial functions and a parameter – Exercise 5876 Next PostProof of Continuity – A split function with a rational function – Exercise 6223 You Might Also Like Proof of Continuity – A split function with an exponential function and a parameter – Exercise 6257 July 5, 2019 Proof of Continuity – A split function with a quotient of functions and parameters – Exercise 5867 June 30, 2019 Proof of Continuity – A split function with A quotient of functions with a square root and a parameter – Exercise 6250 July 5, 2019 Proof of Continuity – A split function with polynomial functions and a parameter – Exercise 5876 June 30, 2019 Proof of Continuity – A split function with polynomial functions and a parameter – Exercise 5874 June 30, 2019 Proof of Continuity – A split function with a function to the power of a function – Exercise 6236 July 5, 2019 Leave a Reply Cancel replyCommentEnter your name or username to comment Enter your email address to comment Enter your website URL (optional) Δ
Proof of Continuity – A split function with an exponential function and a parameter – Exercise 6257 July 5, 2019
Proof of Continuity – A split function with a quotient of functions and parameters – Exercise 5867 June 30, 2019
Proof of Continuity – A split function with A quotient of functions with a square root and a parameter – Exercise 6250 July 5, 2019
Proof of Continuity – A split function with polynomial functions and a parameter – Exercise 5876 June 30, 2019
Proof of Continuity – A split function with polynomial functions and a parameter – Exercise 5874 June 30, 2019
Proof of Continuity – A split function with a function to the power of a function – Exercise 6236 July 5, 2019