no
Pluto was a planet but they didnt want it to be a planet anymore because it was so tiny. But Pluto is alot smaller than earth.
You mean in OUR solar system. lol. Mercury is now the smallest because Pluto isn't considered a planet anymore.
because it didnt want to
90,580.0653 earth daysFirst you must break it down the same units of measure, because Pluto rotates around the sun every 248 (earth) years, and rotates on it's axis every 6.387 (earth) days. what we're going to do is put everything down to days. 248 (earth) years is about 90580.0653 (earth) days and since we already have Pluto's day at 6.387 (earth) days it just simple division if you want to know the amount of (Pluto) days in a (Pluto) year. 90580.0653/6.387 and you get your answer.There are roughly 14,181.9423 (Pluto) days in a (Pluto) year. Hope it helpsthere are 90,472 days in a year on pluto
pluto isn`t currently consider as a planet today because in 2006 scinctist decided that pluto is too tiny to be planet and it has a weird orbit and it also isn`t that round to be a planet.But I still want it to be planet but what can i do anyway
You won't find it miles/s2. It will be in metres/s2 so if you want it in units ofmiles you'll have to convert it! Pluto's average gravitational force is 0.56m/s2.
The simple answer is yes, but don't forget the water has a "force" pushing you up. If you want the truth, gravity isn't a force.
Any time you want. You only have to provide a force vector with magnitudegreater than the magnitude of the gravitational force, acting in the directionopposite to the direction of the gravitational force.Sound complicated, science-fictional, and probably impossible ?That's exactly what you do with your leg muscles when you want to moveyour body up some stairs.
Any time you want. You only have to provide a force vector with magnitudegreater than the magnitude of the gravitational force, acting in the directionopposite to the direction of the gravitational force.Sound complicated, science-fictional, and probably impossible ?That's exactly what you do with your leg muscles when you want to moveyour body up some stairs.
You do it by exerting a force greater than the gravitational force, in the opposite direction ... a lot like what you do with your legs when you want to climb some stairs.
As worded, the question doesn't mean much. I think you want to compare thegravitational force on an object with the buoyant force on the same object whenit's in a fluid.As long as the gravitational force is greater than the buoyant force, the objectmust keep accelerating downward ... sinking further and faster, and displacingmore fluid as it goes. If it ever displaces enough fluid for the buoyant force toequal the gravitational force on it (its 'weight'), then it stops sinking, and floatsright there.
To calculate the gravitational force between two objects, all you need is the mass of those two objects, and the distance between their gravitational centers. If You know that, you can calculate the magnitude of the force, and it doesn´t matter if that situation occurs right now, in 2 days, or in 1357. If you want anything to change (force magnitude, distance or whatever you want), of course, you need time, but you cannot make any statements about a physical situation if you only know the time, or how much time has passed.
Because I want
Mass is an intrinsic property of an object. Anything that has mass will have gravitational force acting on it and this is what we measure when we stand on the weighting scale. If you want to know mass of any object simply divide its weight by 9.8 (gravitational constant).
There is no special name for that. Physics is usually just concerned with "forces", and doesn't specify whether the force pushes or pulls. If you want to be more specific, you can just call it a "pulling force".There is no special name for that. Physics is usually just concerned with "forces", and doesn't specify whether the force pushes or pulls. If you want to be more specific, you can just call it a "pulling force".There is no special name for that. Physics is usually just concerned with "forces", and doesn't specify whether the force pushes or pulls. If you want to be more specific, you can just call it a "pulling force".There is no special name for that. Physics is usually just concerned with "forces", and doesn't specify whether the force pushes or pulls. If you want to be more specific, you can just call it a "pulling force".
TheCentripetal force is a force that makes things go in a circular motion, in example the Earth applying a gravitational force on the moon. So basically if you want to triple its magnitude, you need to triple the magnitude of that force depending on which force is it ( In the Earth-moon example the gravitational force). A force which makes a body go in a circular motion Centripetal force) always equals mv2/R when m is the mass of the body, v is its tangent velocity and R is the radius of the motion. So in the general case you should change one of these variables so the force will triple itself.
just force them to tell them that you really want it.