When a load is attached to a string, the tension counteracts the weight of the load. However, depending on the orientation of the string the tension may be higher than the weight of the object. If there is an angle with respect to the vertical, a larger tension arises.Answer and Explanat...
Why do earth and electrons rotate? From where do they derive energy to rotate? When will they stop rotating? How does the center of gravity affect posture? How do you relate acceleration in two systems connected by pulleys? Why is the direction of magnetic dipole moment from ...
In contrast, neurons in the vestibular and rostral fastigial nuclei, as well as the ventral lateral and ventral posterior nuclei of the thalamus represent a continuum, with some encoding translation and some net gravito-inertial acceleration. This review also outlines how Purkinje cells use ...
The usual method to derive Euler angles is to determine a set vectoral orientation with each orthogonal channel representing a particular body plane (anterior–posterior, medio-lateral and dorsal–ventral) with respect to the earth’s frame of reference [41, 60, 123], and the order of these ...
torque = (mass * distance^2) * (angular_velocity / change_in_time) where distance is defined as the distance from the rotation axis to the center of mass of the arm: center of mass of the arm = distance = 1/2 * (arm_length) ...
I have to ask - why are we trying to re-derive the velocity from the position data (introducing extra layers of error), when we could simply compute it in the same pin-change ISR that's calculating position in the first place. Not counting "stopped", the velocity is just 1/dt where...
(Fig.5b). These polar angle asymmetries were large and were consistent with increasing wedge-ROI width up to ± 55°. These measurements were made on the midgray surface. Given that surface area calculations depend on the cortical depth used to derive the surface area of each vertex, we ...
In the equation F_{d} = mg = \frac{1}{2}\rho v^{2}C_{D}A , the terminal velocity is proportional to the root mass but in Stoke's law, the terminal velocity is proportional to the mass. Why it is different? ...
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To convert centimeters to inches or feet, you can use the following formulas: (x) cm / 2.54 = (y) in (x) cm / 30.48 = (y) ft If you've already...Become a member and unlock all Study Answers Start today. Try it now Create an account Ask a question Our experts can ...