Mass times acceleration minus dynamic pressure squared times area times coefficient of drag
Your weight is the gravitational attraction force between you and the Earth and not a property of mechanical equilibrium. Mechanical equilibrium is a state in which a momentum coordinate of a particle, rigid body, or dynamical system is conserved.
Yes. For example when a mass hung to a spring is displaced downwards from its equilibrium position, it oscillates and at the maximum height, the body has gained gravitational Ep compared to its initial position.
Things balance because earth's gravitational constant is 1 and equilibrium will pull objects down therefor making thing balanced.
They are in thermal equilibrium, not rotational equilibrium.
Static equilibrium and dynamic equilibrium, respectively.
isostasy
it is concept of earths crust is gravitational balance or equilibrium.
heat to gravitational
IS A CONDITION OF RELATIVE GRAVITational equilibrium between earths lithosphere and asthenosphere
Your weight is the gravitational attraction force between you and the Earth and not a property of mechanical equilibrium. Mechanical equilibrium is a state in which a momentum coordinate of a particle, rigid body, or dynamical system is conserved.
Usually, gravitational collapse of the protostar is stopped after hydrogen fusion starts in the center. Then gravitational forces and radiation pressure are in equilibrium.
Gravitational pull gives planets their spheroidal shape (balanced by the outward push of matter, causing hydrostatic equilibrium) and also dictates their orbits, for example, their orbit around the Sun.
Yes. An object is in equilibrium if the velocity is constant. A constant velocity can occur if the forces balance on the object. Consider that the gravitational force is balanced by the "air resistance force", then there is no net force and thus no acceleration. Then the velocity at which this occurs will be a constant and thus the body will be in equilibrium.
Yes. For example when a mass hung to a spring is displaced downwards from its equilibrium position, it oscillates and at the maximum height, the body has gained gravitational Ep compared to its initial position.
Things balance because earth's gravitational constant is 1 and equilibrium will pull objects down therefor making thing balanced.
The earth's constant orbit around the sun is caused by an equilibrium between two forces - the gravitational pull of the sun, and the earth's velocity acting at a right angle to it. If that gravitational pull was suddenly eliminated, the earth would continue onwards in a straight line.
The Gravitational Equilibrium of a star is when the amount of gravity being exerted by the center of the star on the outer particles of the same are balanced by a force pushing the particles out. In other words, it is when a star is not shrinking or condensing because of its own gravity. Possible outward forces counteracting the gravity could be radiation, heat, shockwaves, seismic waves, etc.