False
Reasons
GIVEN
The second (right-hand) column contains reasons or explanations of the statements given in the first (left-hand) column.
Two column form
Two-column proof
A two-column geometric proof consists of a list of statements, and the reasons that we know those statements are true. The statements are listed in a column on the left, and the reasons for which the statements can be made are listed in the right column.
true
False
False. The second column states your REASONS for each deduction. the first is Deductions
True (apex)
The type of proof that uses statements and reasons aligned in a vertical chart is called a two-column proof. In this format, one column lists the statements or steps of the proof, while the adjacent column provides the corresponding reasons or justifications for each statement. This structured approach helps clearly demonstrate the logical flow of the argument. Two-column proofs are commonly used in geometry to establish the validity of theorems and propositions.
In a two-column proof, the left column typically lists the statements or steps of the proof, while the right column provides the corresponding reasons or justifications for those statements. The reasons may include definitions, properties, theorems, or previously established results that support the validity of each step. This structured format helps clearly demonstrate the logical flow of the argument and ensures that each conclusion is backed by a solid rationale.
Reasons
GIVEN
The second (right-hand) column contains reasons or explanations of the statements given in the first (left-hand) column.
In a two-column proof, the right column provides justifications for the statements made in the left column. Each statement, which is typically a mathematical assertion or step in the proof, is paired with a corresponding justification, such as a theorem, definition, or previously established result, in the right column. This structure helps to clearly demonstrate the logical progression of the proof.
two column proof