▼ What is the magnetic field B at point a in (Figure 1)? Give your answer as a vector. Express your answer in teslas. ► View Available Hint(s) B = Submit Part B X Incorrect; Try Again; 14 attempts remaining B = Submit [ΨΕΙ ΑΣΦ 6 Part C Previous Answers What is the magnetic field B at point b in (Figure 1)? Give your answer as a vector. Express your answer in teslas. ► View Available Hint(s) B = ? ΑΣΦ IVE ΑΣΦ ? iT What is the magnetic field B at point c in (Figure 1)? Give your answer as a vector. Express your answer in teslas. ► View Available Hint(s) ? iT iT

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## Educational Text: Magnetic Fields from Current-Carrying Wires ### Introduction Assume that the current \( I \) is 12 A. ### Problem Statement We need to determine the magnetic field \(\vec{B}\) at the specified points in a given figure, resulting from the current in long wires. The answers should be expressed as vectors in teslas. ### Figure Description In the figure, there are long wires represented on a coordinate plane with an \(x\)-\(y\) axis. The wires carry a current \(I\): - The top section of the wire carries current \(I\) out of the page. - The bottom section carries current \(I\) into the page. The positions on the graph are marked as follows: - Point \(a\) is located at \((0, 1)\) cm. - Point \(b\) is located at \((1, 0)\) cm. - Point \(c\) is located at \((2, 0)\) cm. ### Tasks #### Part A - **Question**: What is the magnetic field \(\vec{B}\) at point \(a\) (in the figure)? - **Instruction**: Give your answer as a vector and express it in teslas. #### Part B - **Question**: What is the magnetic field \(\vec{B}\) at point \(b\) (in the figure)? - **Instruction**: Give your answer as a vector and express it in teslas. #### Part C - **Question**: What is the magnetic field \(\vec{B}\) at point \(c\) (in the figure)? - **Instruction**: Give your answer as a vector and express it in teslas. ### Graph Explanation The figure graphically displays the orientation of the wires and their respective positions relative to the coordinate system. The magnetic field must be calculated based on these placements and the direction of the current within the wires. ### Attempted Solutions For each part, an input box is provided to submit the magnetic field vector in teslas. Users can view hints if needed and are informed of incorrect attempts, with a limited number of tries available.