**Find your apparent weight at the equator of this planet**

20/11/2013 · 1. The problem statement, all variables and given/known data The density of iron is 8 times larger than the density of water. An iron block has weight 800 N when it is weighed in air. When the block is weighed when completely submerged in water, the apparrent weight is.... The answer is 700...... However, the "apparent weight" changes because the inherent weight is now compensated somewhat by buoyancy, acting in the opposite direction as gravity. The weight of a piece of wood in water will

**Physics question! Calculating weight on other planet**

APPARENT WEIGHT Calculate the apparent weight of a 90 kg person in an elevator which is accelerating downwards at 0.8 m s–2. GRAVITATIONAL FIELD STRENGTH ON ANOTHER PLANET OR MOON Calculate the strength of the gravitational field on the surface of Mars. m Mars = 6.42 × 1023 kg r Mars = 3390 km Give your answer correct to two significant figures. Thinking Working Recall the …... 3/05/2010 · Each question in the review (always part a) asks for apparent weight, and I can't even do my review because I'm stumped on the first part :( One example problem is: "Jamie (50 kg) is driving over her Mercedes (2000 kg) over a gently curving hill of radius 200m at 56 mph. Find her apparent weight …

**what's the difference between weight and apparent weight**

Apparent weight is related to the force that is pushing on a person from an external object (this is what you feel). You don’t really feel gravity because it pulls equally on all parts of you. how to get keychain on mac Physics 9.2 Space Syllabus Notes on Earth and for the same body on other planets The term ‘g force’ is used to express a person’s apparent weight as a multiple of his/her normal true weight, the weight when standing on the surface of the Earth. The sensation of

**Calculate your weight on another planet knowing the mass**

For example, if I weighed 50 kgs (I do not lol) then my weight would be (50 kg) x (9.8 N/kg) = 490 N. However if I was in an elevator with some acceleration a, then my apparent weight would be different depending on this acceleration. how to find the right mouse sensitivity for you 9/01/2008 · Well it IS 1/2 of that mass's weight on earth. but Weight = mass x acceleration of gravity which means weight on earth = 4 x 9.8 = 39.2 N now what is its weight on a planet of 1/2 g ?

## How long can it take?

### ELI5 Would living on a constantly moving elevator be

- ELI5 Would living on a constantly moving elevator be
- ELI5 Would living on a constantly moving elevator be
- Apparent Weight Problem? Physics? Yahoo Answers
- Find your apparent weight at the equator of this planet

## How To Find Apparent Weight On Another Planet

The apparent weight is therefore not the weight. When a body is at rest in the vicinity of the Earth surface, there are at least 2 forces that acts upon this body. One is the weight, the force exerted on the body due to its own mass and Earth mass, and another one exerted, in most conditions by the surface on which the body is laying. This other force, often called the normal force (as it is

- Our problem is to find the relation and the true weight. If we assume that the earth is spherically symmetric, then the tree . magnitude where mE and RE are the mass and radius of the is the same for all points on the earth’s surface.
- Calculate Your Weight on Other Worlds Page 2 of 2 Saturn is known as the “Ringed Planet” because it has colorful rings made of rock and ice. The gravity of Saturn is 108% of Earth's gravity.
- The apparent weight is therefore not the weight. When a body is at rest in the vicinity of the Earth surface, there are at least 2 forces that acts upon this body. One is the weight, the force exerted on the body due to its own mass and Earth mass, and another one exerted, in most conditions by the surface on which the body is laying. This other force, often called the normal force (as it is
- Does your weight change as you move above or below Earth's surface? Does a person get lighter the higher above the Earth they move? If so, do they get heavier the closer to the centre of the Earth