Both have the concept of variation of force inversely with the square of the distance.
But in case of coulomb we have electric charges and in case of newton's gravitation law we have masses. Coulomb's force can be either attractive and repulsive where as Newton's is only attractive
The same way we do on Earth. (Well I do anyway) The laws of physics are no different in space.
The two forces are of the same magnitude, act in opposite directions, and act on different objects.
A mass of 1 kilogram weighs 9.8 newtons (2.205 pounds) on earth.The same mass weighs 1.6 newtons (0.36 pound) on the moon.
It depends on the angle between the two forces. It can be anything from 1 newton (if they're acting in exactly opposite directions) to 7 newtons (if they're acting in exactly the same direction).
Yes. You're on to something important here. 'Kg' is a unit of mass. That means: how much stuff the thing is made of. It doesn't change. Whether the thing is on Earth, on the Moon, on Mars, or in space, it's still made of the same amount of stuff, so it has the same mass. That same mass has different weights in different places. On Earth, it doesn't matter what the object or the substance is, if it has 1 kg of mass, then it weighs 9.8 newtons. (About 2.205 pounds) When you take the same 1 kg of mass to the moon, it weighs only 1.62 newtons. And if you ever take it to Mars, it'll weigh 3.72 newtons there.
yes they r same
The force between two charges (masses) is proportional to the product of the charges (masses) and inversely proportional (same) to the distance between them. The formula for the force between two charges (masses) has the same exact form in both cases.
On Earth, 10 kilograms of mass weighs 90.81 newtons. (rounded) In other places, the same mass has different weight.
Both have the concept of variation of force inversely with the square of the distance. But in case of coulomb we have electric charges and in case of newton's gravitation law we have masses. Coulomb's force can be either attractive and repulsive where as Newton's is only attractive
It would be 20*4.4 newtons = 88 newtons.
Newtons and protons aren't anywhere near the same. Youre probably thinking about Neutrons, which aren't the same as Protons either
On earth, 3 kg weighs 29.4 newtons. On the moon, the same 3 kg weighs 4.8 newtons. On the way there and back, the same 3 kg weighs zero newtons.
Scientific laws are absolutes, they are unchanged by the nature of the observer. Societal laws are a product of the community - generally a consensus in a particular community, but a different community may have a quite different set of community laws.
The same 10 kg weighs 16 newtons on the moon, 35.2 newtons on Mars, 98 newtons on earth, and zero newtons while in space coasting from any one of them to either other one.
37.3 newtons is a weight. It's the weight on earth of a mass of about 3.8 kilograms.If you put the same mass on an American scale, the scale would read about 8.39 pounds.That's a force of 37.3 newtons. The only difference is where different countries decide topaint the marks on their scales.
The Conservation of Energy is the fundamental relationship of Newton's laws. This relation is the same as the sum of the forces is zero or the condition of Equilibrium.The second Law, F=ma, is a a relation between force , mass and acceleration.
All of Newton's laws are applicable to rocketry.The Second Law F=ma = dmV/dt = mdV/dt + Vdm/dt=0.The first and third law are the same equilibrium condition, No force no acceleration..