Please answer the following questions. 

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Consider the statement, For all connected graphs G, if every vertex of G has even degree, then G has an Euler circuit. Note, you do not need to know anything about graphs to answer these questions. What would the first line of a direct proof be? O A. Let G be a connected graph and assume it has an Euler circuit. O B. Let G be a connected graph and assume it does not have an Euler circuit. O C. Assume there is some connected graph that has all even degree vertices but does not contains an Euler circuit. O D. Let G be a connected graph and assume at least one vertex has odd degree. O E. Let G be a connected graph and assume every vertex has even degree. What would the first line of a proof by contrapositive be? O A. Let G be a connected graph and assume it has an Euler circuit. O B. Let G be a connected graph and assume every vertex has even degree. O C. Let G be a connected graph and assume it does not have an Euler circuit. O D. Let G be a connected graph and assume at least one vertex has odd degree. O E. Assume there is some connected graph that has all even degree vertices but does not contains an Euler circuit. What would the first line of a proof by contradiction be? O A. Let G be a connected graph and assume at least one vertex has odd degree. O B. Let G be a connected graph and assume it does not have an Euler circuit. O C. Let G be a connected graph and assume it has an Euler circuit. O D. Assume there is some connected graph that has all even degree vertices but does not contains an Euler circuit. O E. Let G be a connected graph and assume every vertex has even degree.