| |
| |
1. |
For the proof shown, provide statement 5. |
| |
|
 |
| |
|
 |
| |
|
A. |
AB = DE |
B. |
BC = EF |
| |
|
C. |
AB = EF |
D. |
AC = DF |
| |
|
Hint |
|
| |
2. |
For the proof shown, provide the reason for part f. |
| |
|
|
| |
|
 |
| |
|
A. |
Definition of Addition |
B. |
Definition of a line |
| |
|
C. |
Definition of congruent segments |
D. |
Symmetric Property of Equality |
| |
|
Hint |
|
| |
3. |
For the proof shown, provide the reason for part b. |
| |
|
 |
| |
|
 |
| |
|
A. |
Definition of congruent segments |
B. |
Symmetric Property (=) |
| |
|
C. |
Definition of a line |
D. |
Definition of Addition |
| |
|
Hint |
|
| |
4. |
For the proof shown, provide the reason for part d. |
| |
|
|
| |
|
|
| |
|
A. |
Definition of congruent segments |
B. |
Definition of Addition |
| |
|
C. |
Symmetric Property (=) |
D. |
Definition of a line |
| |
|
Hint |
|
| |
5. |
What three properties hold true for congruence of segments? |
| |
|
A. |
addition, subtraction, and multiplication |
| |
|
B. |
reflexive, symmetric, and transitive |
| |
|
C. |
reflexive, multiplication, and division |
| |
|
D. |
reflexive, symmetric, and substitution |
| |
|
Hint |
|
|
|