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Deck 3: Triangles

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Question
Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px>
Provide missing statements and missing reasons for the proof of the theorem,
"If two sides of a triangle are congruent, then the angles opposite those sides are
also congruent."
Given: Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px> with Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px> Prove: Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px> S1. R1.
S2. Draw the angle bisector for Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px> R2. Every angle has exactly one angle-bisector.
S3. Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.<div style=padding-top: 35px> R3.
S4. R4.
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Question
Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px>
Provide mssing statements and missing reasons for the proof of the theorem,
"Corresponding altitudes of congruent triangles are congruent."
Given: Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> ; Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> Prove: Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> S1. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> R1.
S2. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> R2.
S3. R3. Given
S4. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> are rt. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> R4.
S5. R5. All right angles are congruent.
S6. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.<div style=padding-top: 35px> R6.
S7. R7.
Question
Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px>
Provide the missing statements and missing reasons for the following proof.
Given: Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> and V is the midpoint of Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> Prove: Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> S1. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> R1.
S2. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> R2.
S3. R3. Given
S4. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> R4.
S5. R5. Identity
S6. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.<div style=padding-top: 35px> R6.
S7. R7.
Question
In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px>
In the following problem, explain (prove) why the conclusion is valid..
Given: Quadrilateral In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px> with diagonal In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px> ; In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px> and In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px> are right angles
Prove: In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: <div style=padding-top: 35px>
Question
Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px>
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> and Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> Prove: Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> S1. R1.
S2. Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> R2. If the measure of one Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> of a Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> is greater than the measure of a
2nd Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> of the Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> , then the side opposite the larger Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> is longer than
the side opposite the smaller Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.<div style=padding-top: 35px> .
S3. R3.
Question
Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, .<div style=padding-top: 35px>
Explain why the angle-bisector method is justified. Consider that the given angle, Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, .<div style=padding-top: 35px> ,
is to be bisected by the constructed ray, Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, .<div style=padding-top: 35px> .
Question
Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px>
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px> ; Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px> Prove: Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px> S1. Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px> ; Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.<div style=padding-top: 35px> R1.
S2. R2. Identity
S3. R3.
Question
Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px>
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> ; Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> and Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> Prove: Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> is an isosceles triangle
S1. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> ; Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> R1.
S2. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> R2.
S3. R3. If 2 angles of a triangle are congruent, the sides
opposite these angles are congruent.
S4. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> R4.
S5. R5. CPCTC
S6. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.<div style=padding-top: 35px> is an isosceles triangle R6.
Question
In the figure provided, . Explain why it is necessary that is also congruent to <div style=padding-top: 35px>
In the figure provided, In the figure provided, . Explain why it is necessary that is also congruent to <div style=padding-top: 35px> . Explain why it is necessary that In the figure provided, . Explain why it is necessary that is also congruent to <div style=padding-top: 35px> is also
congruent to In the figure provided, . Explain why it is necessary that is also congruent to <div style=padding-top: 35px>
Question
Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC<div style=padding-top: 35px>
Provide missing statements for the following proof.
Given: Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC<div style=padding-top: 35px> and Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC<div style=padding-top: 35px> are right angles; Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC<div style=padding-top: 35px> Prove: Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC<div style=padding-top: 35px> S1. R1. Given
S2. R2. All right angles are congruent.
S3. R3. Identity
S4. R4. SAS
S5. R5. CPCTC
Question
Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px>
Provide missing reasons for this proof.
Given: Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> and Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> Prove: Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> bisects Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> S1. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> and Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> R1.
S2. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> R2.
S3. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> R3.
S4, Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> R4.
S5. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> bisects Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.<div style=padding-top: 35px> R5.
Question
Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px>
Provide all statements and all reasons for this proof.
Given: Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px> with Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px> ; Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px> with Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px> Prove: Provide all statements and all reasons for this proof. Given: with ; with Prove: <div style=padding-top: 35px>
Question
Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS<div style=padding-top: 35px>
Provide missing statements for the following proof.
Given: Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS<div style=padding-top: 35px> and Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS<div style=padding-top: 35px> Prove: Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS<div style=padding-top: 35px> S1. R1. Given
S2. R2. Vertical angles are congruent.
S3. R3. SAS
Question
Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px>
Provide the missing reasons for the following proof.
Given: M is the midpoint of Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> ; also, Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> Prove: Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> S1. M is the midpoint of Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> R1.
S2. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> R2.
S3. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> R3.
S4. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> R4.
S5. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.<div style=padding-top: 35px> R5.
Question
Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px>
Provide missing statements and missing reasons for the following proof.
Given: Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> ; M is the midpoint of Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> and N is the midpoint of Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> Prove: Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> S1. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> R1.
S2. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> , Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> , and Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> R2.
S3. R3. Given
S4. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> R4. The midpoints of two congruent line segments
divide the segments into 4 congruent segments.
S5. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.<div style=padding-top: 35px> R5.
S6. R6.
Question
Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: <div style=padding-top: 35px>
Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all
statements and reasons.
Given: Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: <div style=padding-top: 35px> , Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: <div style=padding-top: 35px> , and Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: <div style=padding-top: 35px> Prove: Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: <div style=padding-top: 35px>
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Deck 3: Triangles
1
Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4.
Provide missing statements and missing reasons for the proof of the theorem,
"If two sides of a triangle are congruent, then the angles opposite those sides are
also congruent."
Given: Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4. with Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4. Prove: Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4. S1. R1.
S2. Draw the angle bisector for Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4. R2. Every angle has exactly one angle-bisector.
S3. Provide missing statements and missing reasons for the proof of the theorem, If two sides of a triangle are congruent, then the angles opposite those sides are also congruent. Given: with Prove: S1. R1. S2. Draw the angle bisector for R2. Every angle has exactly one angle-bisector. S3. R3. S4. R4. R3.
S4. R4.
S1. S1. with R1. Given R3. The bisector of the vertex angle of an isosceles triangle separates the triangle into two congruent triangles. S4. R4. CPCTC with S1. with R1. Given R3. The bisector of the vertex angle of an isosceles triangle separates the triangle into two congruent triangles. S4. R4. CPCTC R1. Given
R3. The bisector of the vertex angle of an isosceles triangle separates the triangle into
two congruent triangles.
S4. S1. with R1. Given R3. The bisector of the vertex angle of an isosceles triangle separates the triangle into two congruent triangles. S4. R4. CPCTC R4. CPCTC
2
Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7.
Provide mssing statements and missing reasons for the proof of the theorem,
"Corresponding altitudes of congruent triangles are congruent."
Given: Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. ; Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. Prove: Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. S1. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. R1.
S2. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. R2.
S3. R3. Given
S4. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. and Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. are rt. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. R4.
S5. R5. All right angles are congruent.
S6. Provide mssing statements and missing reasons for the proof of the theorem, Corresponding altitudes of congruent triangles are congruent. Given: ; and Prove: S1. R1. S2. and R2. S3. R3. Given S4. and are rt. R4. S5. R5. All right angles are congruent. S6. R6. S7. R7. R6.
S7. R7.
R1. Given
R2. CPCTC
S3. R1. Given R2. CPCTC S3. and R4. Perpendicular lines form right angles. S5. R6. AAS S7. R7. CPCTC and R1. Given R2. CPCTC S3. and R4. Perpendicular lines form right angles. S5. R6. AAS S7. R7. CPCTC R4. Perpendicular lines form right angles.
S5. R1. Given R2. CPCTC S3. and R4. Perpendicular lines form right angles. S5. R6. AAS S7. R7. CPCTC R6. AAS
S7. R1. Given R2. CPCTC S3. and R4. Perpendicular lines form right angles. S5. R6. AAS S7. R7. CPCTC R7. CPCTC
3
Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7.
Provide the missing statements and missing reasons for the following proof.
Given: Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. and V is the midpoint of Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. Prove: Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. S1. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. R1.
S2. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. R2.
S3. R3. Given
S4. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. R4.
S5. R5. Identity
S6. Provide the missing statements and missing reasons for the following proof. Given: and V is the midpoint of Prove: S1. R1. S2. R2. S3. R3. Given S4. R4. S5. R5. Identity S6. R6. S7. R7. R6.
S7. R7.
R1. Given
R2. Perpendicular lines form congruent adjacent angles.
S3. V is the midpoint of R1. Given R2. Perpendicular lines form congruent adjacent angles. S3. V is the midpoint of R4. Definition of midpoint S5. R6. SAS S7. R7. CPCTC R4. Definition of midpoint
S5. R1. Given R2. Perpendicular lines form congruent adjacent angles. S3. V is the midpoint of R4. Definition of midpoint S5. R6. SAS S7. R7. CPCTC R6. SAS
S7. R1. Given R2. Perpendicular lines form congruent adjacent angles. S3. V is the midpoint of R4. Definition of midpoint S5. R6. SAS S7. R7. CPCTC R7. CPCTC
4
In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove:
In the following problem, explain (prove) why the conclusion is valid..
Given: Quadrilateral In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: with diagonal In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: ; In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: and In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove: are right angles
Prove: In the following problem, explain (prove) why the conclusion is valid.. Given: Quadrilateral with diagonal ; and are right angles Prove:
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5
Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3.
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. and Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. Prove: Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. S1. R1.
S2. Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. R2. If the measure of one Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. of a Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. is greater than the measure of a
2nd Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. of the Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. , then the side opposite the larger Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. is longer than
the side opposite the smaller Supply missing statements and missing reasons for the following proof. Given: and Prove: S1. R1. S2. R2. If the measure of one of a is greater than the measure of a 2nd of the , then the side opposite the larger is longer than the side opposite the smaller . S3. R3. .
S3. R3.
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6
Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, .
Explain why the angle-bisector method is justified. Consider that the given angle, Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, . ,
is to be bisected by the constructed ray, Explain why the angle-bisector method is justified. Consider that the given angle, , is to be bisected by the constructed ray, . .
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7
Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3.
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3. ; Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3. Prove: Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3. S1. Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3. ; Supply missing statements and missing reasons for the following proof. Given: ; Prove: S1. ; R1. S2. R2. Identity S3. R3. R1.
S2. R2. Identity
S3. R3.
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8
Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6.
Supply missing statements and missing reasons for the following proof.
Given: Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. ; Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. and Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. Prove: Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. is an isosceles triangle
S1. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. ; Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. R1.
S2. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. R2.
S3. R3. If 2 angles of a triangle are congruent, the sides
opposite these angles are congruent.
S4. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. R4.
S5. R5. CPCTC
S6. Supply missing statements and missing reasons for the following proof. Given: ; and Prove: is an isosceles triangle S1. ; R1. S2. R2. S3. R3. If 2 angles of a triangle are congruent, the sides opposite these angles are congruent. S4. R4. S5. R5. CPCTC S6. is an isosceles triangle R6. is an isosceles triangle R6.
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9
In the figure provided, . Explain why it is necessary that is also congruent to
In the figure provided, In the figure provided, . Explain why it is necessary that is also congruent to . Explain why it is necessary that In the figure provided, . Explain why it is necessary that is also congruent to is also
congruent to In the figure provided, . Explain why it is necessary that is also congruent to
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10
Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC
Provide missing statements for the following proof.
Given: Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC and Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC are right angles; Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC Prove: Provide missing statements for the following proof. Given: and are right angles; Prove: S1. R1. Given S2. R2. All right angles are congruent. S3. R3. Identity S4. R4. SAS S5. R5. CPCTC S1. R1. Given
S2. R2. All right angles are congruent.
S3. R3. Identity
S4. R4. SAS
S5. R5. CPCTC
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11
Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5.
Provide missing reasons for this proof.
Given: Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. and Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. Prove: Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. bisects Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. S1. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. and Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. R1.
S2. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. R2.
S3. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. R3.
S4, Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. R4.
S5. Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. bisects Provide missing reasons for this proof. Given: and Prove: bisects S1. and R1. S2. R2. S3. R3. S4, R4. S5. bisects R5. R5.
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12
Provide all statements and all reasons for this proof. Given: with ; with Prove:
Provide all statements and all reasons for this proof.
Given: Provide all statements and all reasons for this proof. Given: with ; with Prove: with Provide all statements and all reasons for this proof. Given: with ; with Prove: ; Provide all statements and all reasons for this proof. Given: with ; with Prove: with Provide all statements and all reasons for this proof. Given: with ; with Prove: Prove: Provide all statements and all reasons for this proof. Given: with ; with Prove:
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13
Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS
Provide missing statements for the following proof.
Given: Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS and Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS Prove: Provide missing statements for the following proof. Given: and Prove: S1. R1. Given S2. R2. Vertical angles are congruent. S3. R3. SAS S1. R1. Given
S2. R2. Vertical angles are congruent.
S3. R3. SAS
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14
Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5.
Provide the missing reasons for the following proof.
Given: M is the midpoint of Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. ; also, Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. Prove: Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. S1. M is the midpoint of Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. R1.
S2. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. R2.
S3. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. R3.
S4. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. R4.
S5. Provide the missing reasons for the following proof. Given: M is the midpoint of ; also, Prove: S1. M is the midpoint of R1. S2. R2. S3. R3. S4. R4. S5. R5. R5.
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15
Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6.
Provide missing statements and missing reasons for the following proof.
Given: Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. ; M is the midpoint of Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. and N is the midpoint of Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. Prove: Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. S1. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. R1.
S2. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. , Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. , and Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. R2.
S3. R3. Given
S4. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. R4. The midpoints of two congruent line segments
divide the segments into 4 congruent segments.
S5. Provide missing statements and missing reasons for the following proof. Given: ; M is the midpoint of and N is the midpoint of Prove: S1. R1. S2. , , and R2. S3. R3. Given S4. R4. The midpoints of two congruent line segments divide the segments into 4 congruent segments. S5. R5. S6. R6. R5.
S6. R6.
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16
Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove:
Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all
statements and reasons.
Given: Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: , Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: , and Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove: Prove: Use the given drawing and information to prove Theorem 3.1.1 (AAS). Provide all statements and reasons. Given: , , and Prove:
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