An isolated water molecule is modeled as two point charges ±0.700e separated by 0.0980 nm. Its rotational inertia is 2.93 × 10-47 kg·m² about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 838 N/C. If the molecule is initially at rest at 0 = 90.0°, what is its angular speed when it reaches 0 = 0, assuming no other forces or torques? +9 rad/s Axis of rotation Ꮎ
An isolated water molecule is modeled as two point charges ±0.700e separated by 0.0980 nm. Its rotational inertia is 2.93 × 10-47 kg·m² about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 838 N/C. If the molecule is initially at rest at 0 = 90.0°, what is its angular speed when it reaches 0 = 0, assuming no other forces or torques? +9 rad/s Axis of rotation Ꮎ
Question
An isolated water molecule is modeled as two point charges ±0.700e separated by 0.0980 nm. Its rotational inertia is 2.93 × 10−47 kg·m2 about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 838 N/C. If the molecule is initially at rest at θ = 90.0°, what is its angular speed when it reaches θ = 0, assuming no other forces or torques?
rad/s
![An isolated water molecule is modeled as two point charges ±0.700e separated by
0.0980 nm. Its rotational inertia is 2.93 × 10-47 kg·m² about the axis shown in the figure
below. The molecule is in a uniform electric field of magnitude 838 N/C. If the molecule is
initially at rest at 0 = 90.0°, what is its angular speed when it reaches 0 = 0, assuming no
other forces or torques?
+9
rad/s
Axis of
rotation
Ꮎ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8a1ce300-b5d7-48dc-8b08-eba47bb60023%2Ffbc2776a-c20d-401d-a8ec-3c44f2963531%2Ftop19zj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An isolated water molecule is modeled as two point charges ±0.700e separated by
0.0980 nm. Its rotational inertia is 2.93 × 10-47 kg·m² about the axis shown in the figure
below. The molecule is in a uniform electric field of magnitude 838 N/C. If the molecule is
initially at rest at 0 = 90.0°, what is its angular speed when it reaches 0 = 0, assuming no
other forces or torques?
+9
rad/s
Axis of
rotation
Ꮎ
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