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The quantity that is most likely to be the smallest in the equation E=mc^2 is the mass (m). Mass is typically much smaller than the speed of light squared (c^2), and energy (E) can be significant due to the speed of light's large value.
The quantity "m" (mass) is most likely to be the largest in the equation E = mc, as mass is typically larger than the speed of light (c) and energy (E) in everyday scenarios.
The quantity "E" (energy) will most likely be the largest in the equation E=mc^2 since the speed of light (c) is a very large constant value. This means that even a small amount of mass (m) will result in a large amount of energy.
Down to 1 Angstrom = 0,000 000 000 1 meter. The smallest "object" That can be seen under an electron microscope is most likely the electronAnother opinionThe atom is the smallest!
To determine the order of magnitude of a given quantity, you can look at the number of digits in the quantity and focus on the most significant digit. The order of magnitude is typically represented as a power of 10 that is closest to the value of the quantity. For example, if the quantity is 450, the order of magnitude would be 102 or 100.
m apex :)
The quantity that is most likely to be the smallest in the equation E=mc^2 is the mass (m). Mass is typically much smaller than the speed of light squared (c^2), and energy (E) can be significant due to the speed of light's large value.
E
M apex :)
The quantity "m" (mass) is most likely to be the largest in the equation E = mc, as mass is typically larger than the speed of light (c) and energy (E) in everyday scenarios.
The correct answer is 'E' This is for Apex users
The quantity "E" (energy) will most likely be the largest in the equation E=mc^2 since the speed of light (c) is a very large constant value. This means that even a small amount of mass (m) will result in a large amount of energy.
Must be m! C is the speed of light and E is a multiple of m.
Organisms in the ocean with the smallest total biomass are most likely the what?
Phytoplankton is the smallest total biomass
Relatively flat terrain.
The most efficient combination would be one which uses the smallest total quantity of all resources