To find out, Izidoro and his coworkers developed a computer simulation design of the development of the solar system, which emerged from the ashes of a collapsed cloud of dust and gas understood as a solar nebula, Live Science previously reported.Related: 7 methods the Earth changes in the blink of an eyeTheir simulations suggested that pressure “bumps,” or high-pressure areas of gas and dust, would have surrounded the baby sun. “Our design shows pressure bumps can focus dust, and moving pressure bumps can act as planetesimal factories,” Izidoro said.The pressure bumps regulated how much material was available to form planets in the inner solar system, Izidoro said in the statement.According to the simulations, the nearest ring to the sun formed the planets of the inner solar system– Mercury, Venus, Earth and Mars. “So the time when this middle pressure bump formed may be a crucial aspect of the solar system.
To discover out, Izidoro and his colleagues developed a computer system simulation design of the development of the solar system, which emerged from the ashes of a collapsed cloud of dust and gas understood as a solar nebula, Live Science formerly reported.Related: 7 methods the Earth modifications in the blink of an eyeTheir simulations suggested that pressure “bumps,” or high-pressure regions of gas and dust, would have surrounded the baby sun. “Our model shows pressure bumps can focus dust, and moving pressure bumps can act as planetesimal factories,” Izidoro said.The pressure bumps regulated how much product was readily available to form planets in the inner solar system, Izidoro stated in the statement.According to the simulations, the nearest ring to the sun formed the worlds of the inner solar system– Mercury, Venus, Earth and Mars. “So the time when this middle pressure bump formed may be a key element of the solar system.