The only G Lift I know of is when a woman is wearing G string underwear and it slips down and can't be seen above her jeans so she pulls it up to expose it again.
She does need to be careful not to snap it as it will then ride up to her mid riff and that looks weird
9 g's
G force
The white fur by the ski lift
0.4 Newtons
G-I- Joe Sigma 6 - 2005 Lift Off 1-11 was released on: USA: 25 February 2006
God.
work done=m*g*h=53*9.81*7=3.63951 kJ where: m is mass (kg) g is acceleration due to gravity h is lift displacement
White hair. You find them near the Ski lift at the Ski lift. Give them to G.
"Lift" is pretty much defined as the difference in weight of equal volumes of the lifting gas (helium or hot air) and the ambient air. As a comparison, a typical density of air is about 0.00018 g/cm3. At the same temperature and pressure, air would be about 0.00128 g/cm3. The difference is 0.00128 - 0.00018 = 0.0011 g/cm3. So 1 cm3 of helium can lift about 0.0011 g. Scaling that up, 1 m3 of helium could lift about 1.1 kg. To achieve equal buoyancy, the air would have to be heated to about 1850 °C. Normal operating temperatures for hot air balloons are closer to 120 °C. At this temperature, the air density is about 0.00090 g/cm3, so the lift would be about 0.00128-0.0090 = 0.00038 g/cm3 so by comparison, helium would be 0.0011/0.00038 = 2.9 times the lift of hot air.
I guess around 2 G's
Yes, you are working against the force of gravity when you lift something. The amount of work you do depends on the height you lift it by, h, and the mass of the object, m. work = mgh, where g is the gravitational constant.
20x G(gravitational constant 9.81ish) 20x9.81=196.2 Newtons