A physical electric dipole consists of 1.00 g spheres charged to 1.80 nC at the ends of a 6.00 cm -long massless rod. The dipole rotates on a frictionless pivot at it's center. The dipole is held perpendicular to a uniform electric field with field strength 1050 V/m, then released. You can treat the two charged spheres as point charges if you wish. Part A What is the dipole's angular velocity at the instant it is aligned with the electric field? Express your answer in radians per second. ► View Available Hint(s) W Submit = Provide Feedback 17 ΑΣΦ xa Xb 0.217 Previous Answ b √x x x x X Incorrect; Try Again; 14 attempts remaining |X| ? X.10n X rad S

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**Electric Dipole Problem Analysis** A physical electric dipole consists of two 1.00 g spheres, each charged to ± 1.80 nC, positioned at either end of a 6.00 cm-long massless rod. The dipole rotates on a frictionless pivot at its center. When the dipole is held perpendicular to a uniform electric field of field strength 1050 V/m and then released, you can consider the two charged spheres as point charges. **Objective:** Determine the dipole's angular velocity at the moment it aligns with the electric field. **Expression Requirement:** - Express your answer in radians per second. **Solution Entry:** - Enter your calculated angular velocity (ω) in the input box provided. - The current entered value is 0.217 rad/s. **Feedback:** - Submission is incorrect. You have 14 attempts remaining to try again. For further guidance, consult the available hints to aid in solving this problem effectively. **Additional Features:** - An input area is provided to type and format mathematical expressions using various tools and symbols. - Access your previous attempts for reference. Ensure calculations are rechecked for accuracy and adhere to correct units.