You push on a rectangular door at the location of the knob (see diagram for top view). The door s mass is 77.0 kg, and its side-to-side width is 1.97 m. The knob is located 0.12 m from the right-hand side of the door. If you push with a force of 166 N, what will the be the door s angular acceleration as it swings on its hinges? (Note: the moment of inertia of the door of mass M and width x, swinging on its hinges, is (1/3) M x^2.) 4.00 rad/s^2 1.23 rad/s^2 3.08 rad/s^2 1.54 rad/s^2
You push on a rectangular door at the location of the knob (see diagram for top view). The door s mass is 77.0 kg, and its side-to-side width is 1.97 m. The knob is located 0.12 m from the right-hand side of the door. If you push with a force of 166 N, what will the be the door s angular acceleration as it swings on its hinges? (Note: the moment of inertia of the door of mass M and width x, swinging on its hinges, is (1/3) M x^2.) 4.00 rad/s^2 1.23 rad/s^2 3.08 rad/s^2 1.54 rad/s^2
Chapter3: Mass Spectrometry: Part One: Basic Theory, Instrumentation And Sampling Techniques
Section: Chapter Questions
Problem 4P
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QUESTION 10
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You push on a rectangular door at the location of the knob (see diagram for top view). The door s mass is 77.0 kg, and its side-to-side width is 1.97 m. The knob is located 0.12 m from the right-hand side of the door. If you push with a force of 166 N, what will the be the door s
angular acceleration as it swings on its hinges? (Note: the moment of inertia of the door of mass M and width x, swinging on its hinges, is (1/3) M x^2.)4.00 rad/s^21.23 rad/s^23.08 rad/s^21.54 rad/s^2
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