To solve this problem it is necessary to apply the kinematic equations of motion for speed and distance, as well as the concepts related to kinetic energy.
The change in the height of a body subject to gravity is given by

Where
h = Height
g =Gravity
t = time
Replacing with our values we have that the time is



From speed as a function of change between acceleration and time we have then that after 2.6 seconds the speed would be



The kinetic energy would be given by



Therefore the kinetic energy after 2.6s is 1070.16J
I had this question before can you show me the answers choices
Answer:
The inverse of f equals the inverse of d Subscript o Baseline plus the inverse of d Subscript I Baseline.
Explanation:
Explanation:
In order to achieve stable circular gravitational and centrifugal force must be in balance.

This relationship tells closer the closser your orbit is to the surface of the planet the faster you have to go. Which makes sense because the closer you are to the planet the stronger gravitational force gets.
A rose bush is a producer. Producing Carbohydrates from water, CO2 and sunlight.