how is the formula of (1+0.005279sin^2+0.000023sin^4) come from and what is a complete form of this formula?
please answere
Force over Area= Pressure
formula for determining potential difference
Specific gravity of ppc is 3.15
gravity can be simulated with the use of an advanced gravity simulator which uses acceleration to equal the weight of the body
There is no effect on the specific gravity if some of the sample is removed. The amount of mass will change, but it will still have the same specific gravity. It is basically a density. The specific gravity of 1lb of cement is the same as the specific gravity of 100lbs of cement, you just have more cement.
The international dateline has normal gravity; our time zone conventions have no effect on the gravity of the planet Earth.
i think this is a trick question because the formula for PE is mxgxh, where g is gravity and there is no gravity in space, so the answer to the formula would be 0
I honestly have no clue what the formula is so if i don't someone needs to figure it out!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
10 dude :)
all are unsatisfied
The international space station does not have artificial gravity. The occupants float freely and use a lot of Velcro. Don't confuse fantasy and reality.
It was Isaac Newton who first formulated the law of gravity.
You use the formula weight = mass x gravity. In SI units, the gravity is 9.8 meters per second square, weight is in Newtons, mass is in kilograms.You use the formula weight = mass x gravity. In SI units, the gravity is 9.8 meters per second square, weight is in Newtons, mass is in kilograms.You use the formula weight = mass x gravity. In SI units, the gravity is 9.8 meters per second square, weight is in Newtons, mass is in kilograms.You use the formula weight = mass x gravity. In SI units, the gravity is 9.8 meters per second square, weight is in Newtons, mass is in kilograms.
no.
As of 2010, artificial gravity technology has not been invented.
PE = mgh (potential energy = mass x gravity x height).
Mass = force ( weight) / acceleration due to gravity