Determine the gravitational potential energy, in kJ, of 3 m of liquid water atan elevation of 30 m above the surface of Earth. The acceleration of gravity isconstant at 9.7 m/s² and the density of the water is uniform at 1000 kg/m³.Determine the change in gravitational potential energy if the elevationdecreases by 15 m.3a. Determine the gravitational potential energy, in kJ, of 3 m³ of liquid waterat an elevation of 30 m above the surface of Earth.

Given data: Density, ρ=1000 kg/m3g=9.7 m/s2Height, h2=30 mHeight, h1=15 mV=3 m3

Determine the gravitational potential energy, in kJ, of 3 m of liquid water an elevation of 30 m above the surface of Earth. The acceleration of gravity constant at 9.7 m/s² and the density of the water is uniform at 1000 kg/m Determine the change in gravitational potential energy if the elevation decreases by 15 m. a. Determine the gravitational potential energy, in kJ, of 3 m³ of liquid wat at an elevation of 30 m above the surface of Earth.

Determine the gravitational potential energy, in kJ, of 3 m of liquid water an elevation of 30 m above the surface of Earth. The acceleration of gravity constant at 9.7 m/s² and the density of the water is uniform at 1000 kg/m Determine the change in gravitational potential energy if the elevation decreases by 15 m. a. Determine the gravitational potential energy, in kJ, of 3 m³ of liquid wat at an elevation of 30 m above the surface of Earth.