In nuclear fission, great amounts of energy are produced from very small amounts of mass, as described by Einstein's mass-energy equivalence principle E=mc². The energy is derived from the conversion of a small amount of nuclear mass.
During the process of nuclear fission, large amounts of energy are actually released from very small amounts of mass. This is in accordance with Einstein's mass-energy equivalence principle expressed in his famous equation E=mc², where E represents energy, m is the mass, and c² is the speed of light squared. This equation depicts that even small amounts of mass can produce tremendous energy when speed of light is raised to power of two which is a very large number. Therefore, the correct answer to your question is Option A: very small amounts of mass.
#SPJ6
Explanation:
An atom or object that occupies space also has mass. Molar mass or molecular weight is the mass of 1 mole of a substance.
The formula to calculate molar mass is as follows.
For example, molar mass of will be as follows
= ) g/mol
= (45.98 + 12.01 + 48.00) g/mol
= 105.99 g/mol
Therefore, it can be concluded that the sum of mass of all the atoms in grams make up 1 mole of a particular molecule. This mass is known as the molar mass or molecular weight.
b. speeds up
c. slows down
Answer:
The term is alkenes. one double carbon-carbon bond is referred to as Alkenes or Alkynes
Explanation:
I don't understand this
Answer: Galaxy D is what i got and it says ts is right
Explanation:
the red line on d is closer than the rest
Answer:
light-weightiness, durability
Explanation:
Titanium is chemical element with symbol Ti and the atomic number of the element is 22.
Titanium is a transition metal with silver lusture. It possess low density, and high strength and also high tensile strength. Titanium is also resistant to corrosion in sea water.
Titanium is used in many sporting goods like tennis rackets, hockey, etc. Wheelchairs and the tennis rackets are better when they are lightweight, without being detracting from their quality.