Consciousness though a real phenomenon little is knows about its physical particulars. It seems to be related to the complexity of brain actions. It also seems to require a biological brain to have consciousness and thereby it has mass and energy. "Pure consciousness" is a Science Fiction concept implying awareness without physical structure. As far as it is understood such a phenomenon is not possible.
False
No it doesn't. The scenario is completely unrealistic anyway, because if it has any mass at any slower speed, then at the speed of light its mass is infinite.
Kinetic energy = 1/2 mass x speed2If you know any two of the three items, you can calculate the third one with this formula.Kinetic energy = 1/2 mass x speed2If you know any two of the three items, you can calculate the third one with this formula.Kinetic energy = 1/2 mass x speed2If you know any two of the three items, you can calculate the third one with this formula.Kinetic energy = 1/2 mass x speed2If you know any two of the three items, you can calculate the third one with this formula.
No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.No, not at all. Kinetic energy is energy related to movement - any moving object has kinetic energy; at low (non-relativistic) speeds, the kinetic energy is calculated as 0.5 x mass x velocity squared.
The Law of Conservation of Mass states that matter can be changed from one form into another, mixtures can be separated or made, and pure substances can be decomposed, but the total amount of mass remains constant, but you have to have a constant area of a penis in order for the pure substances to separate.
No. You might say it is "pure energy", but any energy has an associated mass, according to the formula e = mc2. Thus, the associated mass can be calculated as m = e/c2. (Therefore, it will also have momentum.)
A gamma ray is an electromagnetic wave, as is light. This makes it similar to light. You might say it is "pure energy". But please note that any energy has an associated mass, which can be calculated by dividing the energy by c2.
False
In any reaction, or process, both the amount of mass and the amount of energy remain constant. You might say that mass has energy, and energy has mass. Any mass or energy "created" during a reaction was already present previously.
Gamma radiation
Mass and energy are equivalent, so there are exchanges of between mass and energy any time there is a change in motion (kinetic energy). But Atomic energy is the most familiar conversion of mass into energy. The explosion of an nuclear bomb, or the energy generated by a nuclear reactor are consequences of conversion of mass into energy. Energy from combustion is not primarily derived from mass/energy conversion, but from exothermic chemical reactions. In fact, any such exchange between mass and energy would operate in the other direction, as gasses gain mass as they are put into motion (increased kinetic energy=increased mass). But any such gain is so tiny as to be meaningless.
Any energy - including light - has an associated mass.
If you mean gravitationally, yes - any energy has an associated mass.
The kinetic energy of any moving object is 1/2 of (its mass) x (the square of its speed). The SI unit of any kind of energy is Joules.
Mass can be converted to energy in some very special cases, but no general method to convert any mass directly into energy is known.
A ball has mass, and any moving mass by definition has kinetic energy (which is defined as mass times the square of the velocity).
No. Nor can you convert mass into energy. In any reaction - including nuclear reactions - both the amount of mass and the amount of energy remain the same, before and after the reaction. For example, the energy that escapes from a nuclear reaction also has a corresponding mass. On the other hand, the energy existed before the reaction as well, in the form of (nuclear) potential energy.