Answer to Question #272575 in Functional Analysis for Prathibha Rose

Question #272575

Find the norm of the linear functional f defined by

𝑓 π‘₯ =integral -1 to 0π‘₯ 𝑑 𝑑𝑑 βˆ’ integral 0 to 1π‘₯ 𝑑 𝑑𝑑

whereπ‘₯ ∈ [βˆ’1 , 1]


1
Expert's answer
2021-11-30T16:41:52-0500

"|f(x)|=""|\\int^0_{-1}x(t)dt-\\int^1_{0}x(t)dt|\\le |\\int^0_{-1}x(t)dt|+|\\int^1_{0}x(t)dt|"


"|\\int^0_{-1}x(t)dt|+|\\int^1_{0}x(t)dt|\\le {\\sup}_{t\\isin [-1,0]}|x(t)|+{\\sup}_{t\\isin [0,1]}|x(t)|\\le 2{\\sup}_{t\\isin [-1,1]}|x(t)|="


"=2||x(t)||_{\\infin}"


thus, "||f||\\le2"


if we consider the sequence

"x_n^*(t)=\\begin{cases}\n 1 &\\text{if } -1\\le t\\le -1\/n \\\\\n -nt &\\text{if } -1\/n< t< 1\/n \\\\\n -1 &\\text{if } 1\/n\\le t\\le 1\n\\end{cases}"


"x_n^*(t)\\isin C[-1,1]" for each "n\\isin N"

Then we see that

"||f||=sup_{x\\in C[-1,1]:||x||=1}|f(x)|\\ge |f(x_n^*)|\\forall n \\isin N"

since "|f(x_n^*)|=|2+1\/n^2-1\/n|" :

"||f||\\ge |2+1\/n^2-1\/n| \\implies ||f|| \\ge 2"


so, "||f|| =2"


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