W a p p a r = m × g w a p p a r = 80 k g × 9. 8 m / s 2 w a p p a r = 784 n step 3: It is equal to 73*9.8 = 715.4 n. Zach, whose mass is 80 kg, is in an elevator descending at 12 m/s. The elevator takes 2.5 s to brake to a stop at the first floor. What is zach's apparent weight. Web zach’s apparent weight while the elevator is braking is 1050.4 newton. This looks like a trick question. What is zach's weight while the elevator. The gravitational field strength of the earth is 9,8n/kg near the surface.
The elevator takes 3.1 s to brake to a stop at the first floor. When the elevator starts to brake it comes to a halt in 4 s. This looks like a trick question. Web if the elevator is going down at a constant velocity then acceleration is zero and the apparent weight before braking is 784.8 n. Web science physics question zach, whose mass is 80 kg, is in an elevator descending at 10 m/s. Web zach’s apparent weight while the elevator is braking is 1050.4 newton. Initial velocity = 10 m/s; W a p p a r = m × g w a p p a r = 80 k g × 9. Express your answer with the appropriate units. It is equal to 73*9.8 = 715.4 n. Web what is zach's apparent weight before the elevator starts braking?
