It can be difficult to state exactly what energy is and this is most likely because it comes in so many different states and forms.
Use this one, it explains exactly what it is: file:///Users/Guest/Desktop/energyladder.gif
Pauli exclusion principle is the principle that states that two particles of a certain class cannot be in exactly the same energy state. This principle was formulated by Austrian physicist Wolfgang Pauli in 1925.
The energy state of an atom is an energy level.
The light emitted by a laser comes from a transition between two specific electronic states of the material it's made of. Because each state has a unique energy, the transition between the two always releases exactly the same energy, which translates to exactly one wavelength of light.
It isn't exactly "turned into energy"; grain already HAS energy. When we eat it, we are eating the chemical energy stored in the grain.
Try it, that way you'll find out.
i dnt know u tell me
Noble metals are by definition stable and thus in a low energy state. Oxidizing them would put them in a much higher energy state. Nature prefers low energy. That is one reason why water flows down hill. It is flowing to lower energy. So a noble metal is quite happy in that state and is difficult to oxidise. Platinum and gold are two such examples.
Why is energy difficult to measure?
thee are exactly 10 that is a difficult question but yes it is 10
Many others physical conditions like that are difficult to recognize. The science moves slowly forwards because there are still much to discover.
Since chemical energy is a type of potential energy, it is hard - and doubtful - to pinpoint the energy exactly. There is energy in the fact that atoms are in a certain configuration, or in the fact that atoms are separate - atoms that would be in a lower energy state if they combined. The potential energy is in the system configuration - not in any particular component.Since chemical energy is a type of potential energy, it is hard - and doubtful - to pinpoint the energy exactly. There is energy in the fact that atoms are in a certain configuration, or in the fact that atoms are separate - atoms that would be in a lower energy state if they combined. The potential energy is in the system configuration - not in any particular component.Since chemical energy is a type of potential energy, it is hard - and doubtful - to pinpoint the energy exactly. There is energy in the fact that atoms are in a certain configuration, or in the fact that atoms are separate - atoms that would be in a lower energy state if they combined. The potential energy is in the system configuration - not in any particular component.Since chemical energy is a type of potential energy, it is hard - and doubtful - to pinpoint the energy exactly. There is energy in the fact that atoms are in a certain configuration, or in the fact that atoms are separate - atoms that would be in a lower energy state if they combined. The potential energy is in the system configuration - not in any particular component.
It's difficult to decide which is the very best energy star doesn't come exactly that strong.GE Energy Star Side-By-Side Refrigerator is one that has been singled out for it's efficiency.
the pauli exclusion principle
Use this one, it explains exactly what it is: file:///Users/Guest/Desktop/energyladder.gif
Pauli exclusion principle is the principle that states that two particles of a certain class cannot be in exactly the same energy state. This principle was formulated by Austrian physicist Wolfgang Pauli in 1925.
The particles in gaseous state has the most energy. The particles in gases are far away and the least forces of attraction. Hence they vibrate most and have the highest energy. The least will be for solids for exactly opposite reason.