Use the theory (Einsteins Principle of Equivalence) discussed in this lab to deduce the acceleration of the elevator at each of the phases (a) ? (i) of the motion.

The Principle of Equivalence x 9.81 to get Neurons DATA ANALYSIS & QUESTIONS DATA TABLE In recording the elevator's acceleration, be sure to indicate clearly whether you are using the convention "positive upwards" or "positive downwards". My weight in laboratory: 47 Kilograms = 4 61 . 07 Newtons N = m (g. a ) s (deduced): 47 Kilograms Phase of Motion Scale Converted Elevator's Reading Weight acceleration (kg) (Newtons) (calculated) (m/$2) (a) while at rest on the lower f 47 461.07 O (b) while the elevator is starting to move upwards; 49 480. 69 0. 417 (c) while the elevator is passing several floors in the upwards 45 441.45 0, 417 direction without stopping; (d) while the elevator is slowing down on its approach to the upper 44 431. 64 - 0. 626 floor; (e) while at rest on the upper floor; 47 441. 07 O (f) while the elevator is starting to move downwards; 4 4 4 31.64 - 0. 624 (g) while the elevator is passing several floors in the downwards 47 461. 07 O direction without stopping; (h) while the elevator is slowing down on its approach to the lower 50 490.5 0. 626 floor; (i) while again at rest on the lower floc 47 4 61.07