e=mc^2 i believe
kinetic energyThe formula for determining kinetic energy is KE = 1/2mv2, where m is mass in kg, and v is speed in m/s.
You can answer that with a glance at the formula for an object'skinetic energy:KE = 1/2 M V2Do you see that ' M ' in there ? That says that the KE varies in direct proportion to the mass.
Use the formula for kinetic energy: KE = (1/2) mv2 (one-half times the mass times speed squared). Clearly, the amount of kinetic energy depends both on the mass and on the speed of the object.
That depends on what happens to its speed. The formula for kinetic energy is:KE = m(v)^2, in which m is mass in kg and vis speed in m/s.If either the mass or the speed increases, the kinetic energy will increase. So if the mass of the rolling snowball increases, but the speed remains constant, its kinetic energy will increase.However, in reality, due to friction between the snowball and the ground, the speed will decrease until the snowball stops. So the kinetic energy under natural conditions would decrease, even though the mass increases.
The amount of kinetic energy an object has depends on its mass and speed.
Kinetic energy is dependent on speed and mass. The formula for kinetic energy is (1/2)mv2, where m is mass and v is velocity.
Mass of a body and its speed are needed to calculate kinetic energy. Kinetic energy of an object = mv2/2 This formula is useful only when object's speed is much less than speed of light.
energy=mass times speed of light squared (times by itself) (e=energy m=mass c=speed of light) *This formula calculates the energy that an object can release when its atoms are split (Same process used in atomic bombs). The formula means Energy is equal to mass times the speed of light times the speed of light again. In other words energy = mass x speed of light x speed of light. In numbers it would be energy = mass x 299'792.456 x 299'792.456 (Speed of light = 299'792.456 km/s)*
For a mass,m, moving at speed, v, the kinetic energy is E = 1/2 mv^2 ( one-half mass times speed squared)
Einstein's famous formula is the formula for the mass-energy equivalence: E=mc2 This describes how mass can be turned into energy and vice versa. Thus E,energy= mass X speed of light x speed of light (a very big number). This means a tiny amount of mass converted to energy is huge and is why atom bombs are so powerful.
E=MC2 E is energy, M is mass, and C is the speed of light.
That's called kinetic energy. The formula is: Kinetic energy = (1/2) x mass x velocity2. If mass is in kilograms, and velocity (or speed, really) in meters per second, the energy will be in Joules.
The classical (non-relativistic) formula for kinetic energy is: KE = (1/2) mv2 (1/2 times mass times speed squared). So, the kinetic energy depends on the mass and on the speed. (The relativistic formula is slightly different, but also depends on mass and speed, so as far as your question is concerned the exact differences aren't important.)
e = m c2
By Newton's law - NO -------------------- Einstein's famous formula states that energy is equivalent to mass times the speed of light squared.
No, that's not true. Look at the formula for kinetic energy. You need mass and speed.
The formula for Kinetic Energy of an object is mv2/2 where m: mass of object and v:velocity of object Therefore when the speed of an object is tripled, then its kinetic energy becomes 9 times