That would depend on the volume (density) of the 10kg object.
98.07 newtons (Force = mass x acceleration)
When a body is moved from sea level to the top of a mountain what changes the body's mass it's weight or both explain?
Earth's shape is slightly bulged at the Equator.
First off your mass is the same, it will no t change no matter where you are. Your weight however depends on the distance between your center of mass and the center of mass of the earth ( and to a very small extent on the bouyant forces of the atmosphere) So at sea level the force of gravity between you and the earth (your weight) is: F=G x m1x m2/D2 where F is essentially your weight, G is the universal gravitational constant, m is your mass and m2 id the mass of the Earth and D is the distance between you and the center of the Earth. At the top of Everest you are 8.84 km further from the center of the Earth (Earth's radius)so: FTop/Fsealevel = D2sealevel/D2 Top = (6378.1km)2/(6378.1km + 8.84km)2 (about 99.7% of your initial weight)
If you weigh 240 pounds at sea level on earth, then your mass is 108.862 kilograms (rounded)
98.07 newtons (Force = mass x acceleration)
The object's mass is 3.57kg at sea level.
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When a body is moved from sea level to the top of a mountain what changes the body's mass it's weight or both explain?
Apply Newton's second law, F mg where F is the weight , m is the mass, and g is the acceleration of gravity at the location where weight is to be determined. At sea level, a 1 kg mass has a weight of 9.8 Newtons F (1kg)(9.8m/s2) 9.8 Newtons The force (weight) exerted on 1 kg at sea level is 2.2 lbs
(10kg)x(9.80665N/kg)=98.0665N at sea level on earth
Your weight(force due to gravity) equals your mass times the acceleration due to gravity(g). g=G*(Mass of Earth)/(r^2) So (force@helens)/(force@sea level)= g(@helens)/g(@sea level)= [(radius of earth)/(radius of the earth+height of helens)]^2 radius of earth = 6378.1 km Altitude of mt helens = 2.55 km Your mass cancels out because it is equal regardless of gravity. So your weight at mt helens is equal to 99.92% of your weight at sea level. Hope that helps
The mass of the air would be 984g at 25C (temperature also has an effect).
About 700N 70kg • 10m/s = 700N
the mass will always be 50 kg, however, the weight changes depending on different variables. Something that has a weight of 50 kg at sea level will be somewhat lighter in high altitudes, and conversly, something that weighs 50 kg at the peak of Mt Killimanjaro will weigh more at sea level.
Mass does not change with changes in altitude or elevation. Weight on the other hand does change. However, on earth the change from sea level to the top of a mountain would be extremely small.
Mass refers to the total amount of matter in a substance. Weight is a force that is equivalent to the Earth's gravitational pull on mass at sea level. Due to the relative weakness of gravity weight is generally speaking the same all over the planet. If an object is on the moon the mass would still be the same, but the weight would actually be 1/6 of the weight on Earth.