Answer:
east of south
Explanation:
Given:
- distance of the person form the initial position,
- direction of the person from the initial position, north of east
- distance supposed to travel form the initial position,
- direction supposed to travel from the initial position, due North
<u>Now refer the schematic for visualization of situation:</u>
...............(1)
.................(2)
<u>Now the direction of the desired position with respect to south:</u>
east of south
<u>Now the distance from the current position to the desired position:</u>
They has been very successful but they are very expensive to operate that is your answer I hope this helps
Given:
u(initial velocity)=0
v(final velocity)= 10 m/s
t= 4 sec
Now we know that
v= u + at
Where v is the final velocity
u is the initial velocity
a is the acceleration measured in m/s^2
t is the time measured in sec
10=0+ax4
a=10/4
a=2.5 m/s^2
The kinetic energy (KE) is 250 J and the gravitational potential energy (GPE) is 392 J