If $f$ is convex and $t$ is greater or equal to 1, is f(tx) greater or equal to $tf(x)$?

convex-optimization convex-analysis

Since $t \geqslant 1$, we have $0 < \frac{1}{t} \leqslant 1$. Now, since $f$ is convex: $$\frac{1}{t} f(tx) + \frac{t-1}{t}f(0) \geqslant f(\frac{tx}{t} + 0) \implies f(tx)+(t-1)f(0) \geqslant tf(x)$$

If $f(0) \leqslant 0$, then $f(tx) \geqslant f(tx) + (t-1)f(0) \geqslant tf(x)$, and the claim holds true.

If $f(0)>0$, the claim must be false, with the counterexample $x=0$, since $tf(0) > f(0)$ for any $t>1$.

Related

Inequality involving $\int_0^t e^{\alpha s^2} ds$. How to justify it?
Is Zorn's lemma applicable to this integration problem?
How can this subgroup $H$ of a cyclic group $G=\langle x \rangle$ contain the identity element if $H= \{1x, 2x, 3x, .... \} $?
Application of Ruzsa's covering lemma to iterated sum sets
Is it possible to move some steam games to a different library location (without re-downloading them?) [duplicate]
When you click on the scenery in Hearthstone, does your opponent see it?
Is there a limit on the number of days or years for a single playthrough?
Can Nintendo Switch games be installed from cartridge?
What is the number under my Battle.Net StarCraft 2 profile name?
Is it possible to do a mass replacement of aging vehicles?
How do I dismiss the console in Don't Starve?
Do shiny Pokémon show as shiny on the map?