nasa scientists are reporting that cosmic rays have been detected at high levels over a number of years, specifically in the oceans of the Pacific and Indian oceans. The results are not yet conclusive, but the scientists do say that the amounts of cosmic rays detected are significantly higher than what is expected.
Scientists at Nasa’s Jet Propulsion Laboratory in California say that it’s probably not just the Earth’s magnetic field which is to blame but other things as well. The scientists are now pointing to variations in the Earth’s magnetic field and atmosphere as a possible reason for the high levels of cosmic rays.
So basically the earth is a magnet, but this new research shows that the magnetic field of Earth is not strong enough to cause as much cosmic rays as previously thought.
The problem is that scientists at Nasa have been trying to explain how high levels of cosmic rays came to be. They had initially thought that the particles were being directly produced by the sun, but that theory was proven wrong. The particles are not produced by the sun, but by the Earth itself. This is a new theory that Nasa is now saying is unlikely to hold water, mainly because it contradicts the way we measure the Earths magnetic field.
It’s an interesting new theory, but I don’t think it explains how high levels of cosmic rays were coming from the sun. That’s what is the new theory. It may all be a bunch of fudge.
On the other hand, the new theory also contradicts the way we currently measure the Earth’s magnetic field.The magnetic field is measured by a needle and a magnet. One side of the needle is pointing in the opposite direction than the other so when you measure the needle, it would be pointing in the same direction as the magnet. Since the needle is made of steel and the magnet is made of iron, it would be impossible to measure the needle accurately.
The magnetic field is a measure of how strong it is, not how it points. It’s a measurement of how much energy you emit from your body and how small the needle needle is. Since it can’t be measured accurately, it’s not a good measurement of magnetic field strength.
The most accurate way to measure the strength of the magnetic field is by measuring the intensity of the light. If you look at a compass, you would see it point north, if you look at a light meter you would see a needle that points in the same direction, and if you look at a radio antenna, if you look at a magnetometer, you will see that magnet is pointing south, which means the needle is pointing north.
Now the strongest magnetic field known is about 30 Gauss, which is about 10,000 times stronger than the strongest magnetic field ever measured. So you can certainly feel intense magnetic fields from far away, but what you will feel closer to you are the effects of the Earth’s magnetic field. The Earth’s magnetic field holds some of the planet’s power in place and makes it easier for the sun to heat the planet.
The magnetic field is thought to be the result of a process called “magnetic reconnection.” This process occurs when charged particles and electrons get sucked into a magnetic field. Once this happens, the field is no longer stable and the particles and electrons spiral away from the field. In the case of the Earth, the magnetic field holds the planet’s power in place. You can see this in the Earths magnetic field, as it holds off the sun’s heat.