Please help by DRAWING and give the solutions like the one in the picture and USE the formulas that are in the second picture. (the problems are all related.) 1. The same ball is tossed upward at the top of a 80 m tall building at 30m/s. Find the distances covered and the velocities in 1 second intervals. 2. The ball is thrown down from the top of the 80 m tall building at 30 m/s. Find the distances covered and the velocities in 1 second intervals.
Please help by DRAWING and give the solutions like the one in the picture and USE the formulas that are in the second picture. (the problems are all related.) 1. The same ball is tossed upward at the top of a 80 m tall building at 30m/s. Find the distances covered and the velocities in 1 second intervals. 2. The ball is thrown down from the top of the 80 m tall building at 30 m/s. Find the distances covered and the velocities in 1 second intervals.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Please help by DRAWING and give the solutions like the one in the picture and USE the formulas that are in the second picture.
(the problems are all related.)
1. The same ball is tossed upward at the top of a 80 m tall building at 30m/s. Find the distances covered and the velocities in 1 second intervals.
2. The ball is thrown down from the top of the 80 m tall building at 30 m/s. Find the distances covered and the velocities in 1 second intervals.
Transcribed Image Text:A ball is thrown upwards at 30m/s. Draw the problem out, and find the distance
covered and velocity in 1 second intervals.
IPEVO Visualizer
V= Vo-gt
5m
5 m
10m/
15 m
10m/3²
25m
Ised
25m
30m/s
IPEVO
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3.5x
Transcribed Image Text:-all of our formulas we've used will now use y instead of x: (y-axis)
-acceleration due to gravity: instead of using "a" for accel., we will use "g" for
acceleration due to gravity
-use -10 m/s? (or -9.8 m/s?)
formulas:
velocity acquired: v = vo - gt
(if it's already negative in the formula, use 10 m/s²)
displacement:
y = Yo + v,t - ½ gt²
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