When the gas in a nebula's center stops collapsing, it typically leads to the formation of a protostar. The inward gravitational forces balance with the outward pressure from the heat generated by nuclear fusion as the protostar ignites. This process marks the transition from a collapsing gas cloud to a stable star, initiating the stellar lifecycle. Eventually, the surrounding material may continue to collapse, forming a protoplanetary disk, leading to the development of planets and other celestial bodies.
A collapsing nebula spins faster due to the conservation of angular momentum. As the gas and dust within the nebula contract under gravitational forces, the material moves closer to the center, reducing its radius. Since angular momentum must be conserved, this decrease in radius leads to an increase in rotational speed, similar to how a figure skater spins faster when bringing their arms closer to their body.
Gravity pulls the particles in a nebula towards the center, trying to collapse it. However, pressure from gas and radiation within the nebula counteracts gravity, creating a balance that prevents collapse. This balance is crucial for the formation of stars from a nebula.
The sun stays in space due to a delicate balance between two forces: gravity pulling the sun towards the center of its mass, and the outward pressure created by nuclear fusion reactions happening in its core. This balance keeps the sun stable and prevents it from collapsing or drifting away.
It ended it's career in July 2011 when it completed its final mission. It will be on display at the Kennedy Space Center for visitors to see.
Scientists believe that the Solar System evolved from a giant cloud of dust and gas. They believe that this dust and gas began to collapse under the weight of its own gravity. As it did so, the matter contained within this could begin moving in a giant circle, much like the water in a drain moves around the center of the drain in a circle. At the center of this spinning cloud, a small star began to form. This star grew larger and larger as it collected more and more of the dust and gas that collapsed into it. Further away from the center of this mass where the star was forming, there were smaller clumps of dust and gas that were also collapsing. The star in the center eventually ignited forming our Sun, while the smaller clumps became the planets, minor planets, moons, comets, and asteroids.
When the gas in the nebula's center stopped collapsing, it likely reached a stable equilibrium where the inward force of gravity was balanced by the outward pressure from nuclear fusion or other energy sources. This equilibrium could result in the formation of a protostar or a star, depending on the mass and composition of the gas.
Polio
Massive stars are the center of a distant nebula. The massive stars are formed as the gas in the interstellar medium collapses under its own weight. The size of a nebula depends on the size of the original gas cloud.
Our universe is expanding constantly so there is nothing anywhere that is stopped.
When a nebula collapses due to gravitational forces, the center becomes denser and hotter. As the material in the center becomes more compact, the pressure and temperature increase, eventually triggering nuclear fusion reactions that sustain a star's energy. This marks the birth of a new star in the center of the collapsing nebula.
No it did not it happend at galden center
Red Light Center happened in 2006.
Mega Plaza Shopping Center happened in 1997.
he died
Jumpers from the World Trade Center meant to escape the flames, smoke, explosions, and collapsing of the World Trade Center. While most knew they were going to die from jumping, they believed this death would involve less suffering than remaining inside the towers.
Jumpers from the World Trade Center meant to escape the flames, smoke, explosions, and collapsing of the World Trade Center. While most knew they were going to die from jumping, they believed this death would involve less suffering than remaining inside the towers.
The diameter ALWAYS passes through the center of a circle. If it stopped at the center point, it would be a radius, and if it didn't do either, it would be chord.