Quiz:Limit

ORIGINAL FULL PAGE: Limit
STUDY THE TOPIC AT MULTIPLE LEVELS:
ALSO CHECK OUT: Quiz (multiple choice questions to test your understanding) |Page with videos on the topic, both embedded and linked to

	For every $α > 0$ , there exists $β > 0$ such that if $0 < \| x - c \| < α$ , then $\| f (x) - L \| < β$ .
	There exists $α > 0$ such that for every $β > 0$ , and $0 < \| x - c \| < α$ , we have $\| f (x) - L \| < β$ .
	For every $α > 0$ , there exists $β > 0$ such that if $0 < \| x - c \| < β$ , then $\| f (x) - L \| < α$ .
	There exists $α > 0$ such that for every $β > 0$ and $0 < \| x - c \| < β$ , we have $\| f (x) - L \| < α$ .
	None of the above

	$f (c)$ exists and is equal to $L$ .
	$f (c)$ does not exist.
	$f (c)$ may or may not exist, but if it exists, it must equal $L$ .
	$f (c)$ must exist, but it need not be equal to $L$ .
	$f (c)$ may or may not exist, and even if it does exist, it may or may not be equal to $L$ .

	For every $ε > 0$ , there exists $δ > 0$ such that for all $x \in R$ satisfying $0 < c - x < δ$ , we have $0 < L - f (x) < ε$ .
	For every $ε > 0$ , there exists $δ > 0$ such that for all $x \in R$ satisfying $0 < x - c < δ$ , we have $0 < f (x) - L < ε$ .
	For every $ε > 0$ , there exists $δ > 0$ such that for all $x \in R$ satisfying $0 < x - c < δ$ , we have $0 < L - f (x) < ε$ .
	For every $ε > 0$ , there exists $δ > 0$ such that for all $x \in R$ satisfying $0 < \| x - c \| < δ$ , we have $0 < L - f (x) < ε$ .
	For every $ε > 0$ , there exists $δ > 0$ such that for all $x \in R$ satisfying $0 < c - x < δ$ , we have $\| f (x) - L \| < ε$ .

Quiz:Limit

Definition for finite limit for finite function of one variable

Two-sided limit

Left hand limit