Question

bisecting a segment
given $overline{ed} \cong \overline{db}$, which statements about the figure are true? check all that apply.
$\square$ $\overline{eb}$ is bisected by $\overline{df}$.
$\square$ a is the midpoint of $\overline{fc}$.
$\square$ $\overline{fc}$ bisects $\overline{db}$.
$\square$ $\overline{eb}$ is a segment bisector.
$\square$ $fa = \frac{1}{2}fc$
$\square$ $\overline{da} \cong \overline{ab}$

Explanation:

1. For "\(\overline{EB}\) is bisected by \(\overline{FC}\)": Given \(\overline{ED}\cong\overline{DB}\), \(D\) is the midpoint of \(\overline{EB}\), but \(\overline{FC}\) intersects \(\overline{EB}\) at \(A\), not \(D\), so this is false.
2. For "A is the midpoint of \(\overline{FC}\)": The marks on \(\overline{FC}\) (equal segments \(FA\) and \(AC\)) show \(A\) divides \(\overline{FC}\) into two equal parts, so this is true.
3. For "\(\overline{FC}\) bisects \(\overline{EB}\)": \(\overline{EB}\) has \(D\) as midpoint (\(\overline{ED}\cong\overline{DB}\)), but \(\overline{FC}\) intersects \(\overline{EB}\) at \(A\), not \(D\), so \(\overline{FC}\) does not bisect \(\overline{EB}\), false.
4. For "\(\overline{EB}\) is a segment bisector": A segment bisector divides another segment. \(\overline{EB}\) is intersected by \(\overline{FC}\) at \(A\), but \(\overline{EB}\) itself is not bisecting another segment here (since \(D\) is its midpoint, but it's not acting as a bisector for another segment in the figure's context), false.
5. For "\(FA = \frac{1}{2}FC\)": Since \(A\) is the midpoint of \(\overline{FC}\) (from the segment marks), \(FA=AC\) and \(FC = FA + AC=2FA\), so \(FA=\frac{1}{2}FC\), true.
6. For "\(\overline{DA}\cong\overline{AB}\)": There's no indication (marks or given info) that \(A\) is the midpoint of \(\overline{DB}\), so we can't conclude \(\overline{DA}\cong\overline{AB}\), false.

Answer:

A is the midpoint of \(\overline{FC}\), \(FA = \frac{1}{2}FC\) (the options with these statements, assuming the checkboxes correspond to: the second option, the fifth option, and also let's re - check the last one: Wait, no, earlier mistake. Wait, given \(\overline{ED}\cong\overline{DB}\), so \(D\) is midpoint of \(EB\), and \(A\) is midpoint of \(FC\) (from the tick marks on \(FC\)). Also, \(\overline{EB}\) is a segment, and \(\overline{FC}\) bisects? No, wait, the first option: \(\overline{EB}\) is bisected by \(\overline{FC}\)? No, \(D\) is midpoint. Wait, maybe I made a mistake. Let's re - analyze:

Wait, the figure: \(E---D---A---B\) on line \(EB\), and \(F---A---C\) on line \(FC\), with \(FA = AC\) (tick marks) and \(ED = DB\) (given).

1. "\(\overline{EB}\) is bisected by \(\overline{FC}\)": To bisect \(\overline{EB}\), the bisector should pass through its midpoint \(D\). But \(\overline{FC}\) passes through \(A\), not \(D\), so false.
2. "A is the midpoint of \(\overline{FC}\)": Since \(FA\) and \(AC\) have the same tick mark, \(FA = AC\), so \(A\) is midpoint, true.
3. "\(\overline{FC}\) bisects \(\overline{EB}\)": Bisecting \(\overline{EB}\) means dividing it into two equal parts. \(\overline{FC}\) intersects \(\overline{EB}\) at \(A\), but \(ED = DB\) (so \(D\) is midpoint), \(A\) is not \(D\), so \(\overline{FC}\) does not bisect \(\overline{EB}\), false.
4. "\(\overline{EB}\) is a segment bisector": A segment bisector is a segment that bisects another segment. \(\overline{EB}\) is not shown to bisect any other segment (it's being bisected at \(D\) by itself? No, a segment bisector should bisect another segment. So false.
5. "\(FA=\frac{1}{2}FC\)": Since \(A\) is midpoint of \(FC\), \(FC = FA + AC\) and \(FA = AC\), so \(FC = 2FA\), so \(FA=\frac{1}{2}FC\), true.
6. "\(\overline{DA}\cong\overline{AB}\)": There's no information (marks or given) that \(A\) is midpoint of \(DB\), so we can't say \(\overline{DA}\cong\overline{AB}\), false.

Also, wait, the first option: "\(\overline{EB}\) is bisected by \(\overline{FC}\)" – no. Wait, maybe the problem's figure has \(A\) on \(EB\) and \(D\) on \(EB\) with \(ED = DB\), and \(A\) on \(FC\) with \(FA = AC\). Then, is \(\overline{FC}\) a bisector of \(\overline{EB}\)? No, because it doesn't pass through \(D\). But is \(\overline{EB}\) a bisector of \(\overline{FC}\)? Wait, \(\overline{EB}\) intersects \(\overline{FC}\) at \(A\), which is the midpoint of \(\overline{FC}\). Oh! I made a mistake earlier. So \(\overline{EB}\) passes through the midpoint \(A\) of \(\overline{FC}\), so \(\overline{EB}\) bisects \(\overline{FC}\), meaning \(\overline{FC}\) is bisected by \(\overline{EB}\), not the other way. Wait, the first option is "\(\overline{EB}\) is bisected by \(\overline{FC}\)" – no. The third option is "\(\overline{FC}\) bisects \(\overline{EB}\)" – no. The fourth option: "\(\overline{EB}\) is a segment bisector" – since it bisects \(\overline{FC}\) (passes through its midpoint \(A\)), so \(\overline{EB}\) is a segment bisector (of \(\overline{FC}\)). And also, \(A\) is midpoint of \(\overline{FC}\), \(FA=\frac{1}{2}FC\), and \(\overline{DA}\cong\overline{AB}\)? Wait, no, \(ED = DB\), but \(DA\) and \(AB\): unless \(A\) is midpoint of \(DB\), but we don't know. Wait, let's start over.

Definitions: A segment bisector is a line, ray, or segment that divides another segment into two equal parts (passes through its midpoint). A midpoint of a segment is a point that divides the segment into two equal parts.

Given \(\overline{ED}\cong\overline{DB}\), so \(D\) is the midpoint of \(\overline{EB}\). The marks on \(\overline{FC}\) (two equal segments) mean \(A\) is the midpoint of \(\overline{FC}\) (so \(FA = AC\), hence \(FA=\frac{1}{2}FC\)).

Now, \(\overline{EB}\) intersects \(\overline{FC}\) at \(A\), which is the midpoint of \(\overline{FC}\), so \(\overline{EB}\) bisects \(\overline{FC}\), meaning \(\overline{EB}\) is a segment bisector (of \(\overline{FC}\)).

Also, is \(\overline{FC}\) bisecting \(\overline{EB}\)? No, because it intersects \(\overline{EB}\) at \(A\), not at \(D\) (the midpoint of \(\overline{EB}\)).

Is \(\overline{EB}\) bisected by \(\overline{FC}\)? No, because \(\overline{FC}\) doesn't pass through \(D\) (the midpoint of \(\overline{EB}\)).

Is \(A\) the midpoint of \(\overline{FC}\)? Yes, because \(FA = AC\) (from the marks).

Is \(FA=\frac{1}{2}FC\)? Yes, because \(FC = FA + AC\) and \(FA = AC\), so \(FC = 2FA\) implies \(FA=\frac{1}{2}FC\).

Is \(\overline{DA}\cong\overline{AB}\)? We know \(ED = DB\), but there's no information about \(DA\) and \(AB\). So we can't assume that.

Wait, also, the first option: "\(\overline{EB}\) is bisected by \(\overline{FC}\)" – no. The fourth option: "\(\overline{EB}\) is a segment bisector" – yes, because it bisects \(\overline{FC}\) (passes through its midpoint \(A\)).

So let's re - evaluate:

1. \(\overline{EB}\) is bisected by \(\overline{FC}\): False (bisector of \(\overline{EB}\) should pass through \(D\), not \(A\)).
2. A is the midpoint of \(\overline{FC}\): True (marks on \(\overline{FC}\) show \(FA = AC\)).
3. \(\overline{FC}\) bisects \(\overline{EB}\): False (doesn't pass through \(D\), midpoint of \(\overline{EB}\)).
4. \(\overline{EB}\) is a segment bisector: True (passes through \(A\), midpoint of \(\overline{FC}\), so it bisects \(\overline{FC}\)).
5. \(FA=\frac{1}{2}FC\): True (since \(A\) is midpoint, \(FC = 2FA\)).
6. \(\overline{DA}\cong\overline{AB}\): False (no info to support).

Wait, now I see my earlier mistake. A segment bisector just needs to pass through the midpoint of another segment. So \(\overline{EB}\) passes through \(A\) (midpoint of \(\overline{FC}\)), so \(\overline{EB}\) is a segment bisector (of \(\overline{FC}\)). And \(\overline{FC}\) passes through \(A\), but \(A\) is not the midpoint of \(\overline{EB}\) (since \(D\) is the midpoint of \(\overline{EB}\)), so \(\overline{FC}\) is not a bisector of \(\overline{EB}\), but \(\overline{EB}\) is a bisector of \(\overline{FC}\).

So the true statements are:

• A is the midpoint of \(\overline{FC}\)
• \(\overline{EB}\) is a segment bisector
• \(FA=\frac{1}{2}FC\)

Wait, but let's check the original options again:

1. \(\overline{EB}\) is bisected by \(\overline{FC}\): No (bisected at \(D\), not \(A\))
2. A is the midpoint of \(\overline{FC}\): Yes
3. \(\overline{FC}\) bisects \(\overline{EB}\): No (bisects at \(D\), not \(A\))
4. \(\overline{EB}\) is a segment bisector: Yes (bisects \(\overline{FC}\))
5. \(FA=\frac{1}{2}FC\): Yes
6. \(\overline{DA}\cong\overline{AB}\): No

So the correct options are the second, fourth, and fifth? Wait, no, the fourth option: "\(\overline{EB}\) is a segment bisector" – a segment bisector is a segment that bisects another segment. Since \(\overline{EB}\) passes through the midpoint \(A\) of \(\overline{FC}\), it bisects \(\overline{FC}\), so \(\overline{EB}\) is a segment bisector.

And the second option: "A is the midpoint of \(\overline{FC}\)" – yes, from the marks.

Fifth option: "\(FA=\frac{1}{2}FC\)" – yes, since \(A\) is midpoint.

Also, wait, the first option: "\(\overline{EB}\) is bisected by \(\overline{FC}\)" – no, because \(\overline{FC}\) doesn't pass through \(D\) (the midpoint of \(\overline{EB}\)).

So the true statements are:

• A is the midpoint of \(\overline{FC}\)
• \(\overline{EB}\) is a segment bisector
• \(FA=\frac{1}{2}FC\)

But let's check the original problem's options again (the checkboxes):

1. \(\overline{EB}\) is bisected by \(\overline{FC}\) – no
2. A is the midpoint of \(\overline{FC}\) – yes
3. \(\overline{FC}\) bisects \(\overline{EB}\) – no
4. \(\overline{EB}\) is a segment bisector – yes
5. \(FA=\frac{1}{2}FC\) – yes
6. \(\overline{DA}\cong\overline{AB}\) – no

So the answer is the options:

A is the midpoint of \(\overline{FC}\), \(\overline{EB}\) is a segment bisector, \(FA=\frac{1}{2}FC\) (corresponding to the second, fourth, and fifth checkboxes, assuming the numbering is: 1st: \(\overline{EB}\) is bisected by \(\overline{FC}\); 2nd: A is the midpoint of \(\overline{FC}\); 3rd: \(\overline{FC}\) bisects \(\overline{EB}\); 4th: \(\overline{EB}\) is a segment bisector; 5th: \(FA=\frac{1}{2}FC\); 6th: \(\overline{DA}\cong\overline{AB}\)).

But maybe I was wrong about the fourth option. Let's recall: A segment bisector can be a segment, ray, or line that intersects another segment at its midpoint. So \(\overline{EB}\) is a segment, and it intersects \(\overline{FC}\) at \(A\), which is the midpoint of \(\overline{FC}\), so \(\overline{EB}\) is a segment bisector (of \(\overline{FC}\)). So that's true.

And the second option: A is the midpoint of \(\overline{FC}\) – true, from the congruent marks on \(\overline{FC}\).

Fifth option: \(FA=\frac{1}{2}FC\) – true, since \(A\) is midpoint, \(FC = FA + AC\) and \(FA = AC\), so \(FC = 2FA\) implies \(FA=\frac{1}{2}FC\).

So the correct answers are the second, fourth, and fifth options (assuming the checkboxes are labeled as such). If we list them:

1. A is the midpoint of \(\overline{FC}\)

1. \(\overline{EB}\) is a segment bisector

1. \(FA=\frac{1}{2}FC\)