Scalar. There is no direction associated with it.
Added- Even though KE=1/2mv^2 and v is velocity which is a vector this velocity actually just represents speed, its weird I know.
KE is a scalar quantity. In the KE equation, where KE = 1/2m∙v2, v is speed, not velocity, so it is not dependent on the direction of the motion.
It's a scalar quantity .
Potential energy is a scalar quantity. Energy is the sum of a scalar part and a vector part. Energy W is the product of velocity V and momentum P; W = [c+V]P =[ -V.P + cP]. The Potential energy is the scalar energy -V.P=-vmv = -mv^2.Physicists consider energy a scalar quantity, but that is incorrect, energy is a Quaternion quantity, a scalar and a vector . The vector energy is the "Dark Energy" is hidden in plain sight, cP.
Gravitational potential energy is a scalar. Gravity also has a vector energy cmV= cP.
Efficiency is a scalar quantity because it can increase in magnitude but does not have any particular direction. :)
Vector energy. This term is not widely known or used. Physicists declare energy a scalar quantity, including the term kinetic energy. A moving object is uniformly assumed to have Momentum, a vector quantity.The energy associated with Momentum is Momentum Energy, cP (This is the widely looked for "Dark energy") Physicists use a term for another vector energy, Torque . Physicists use Joule for scalar energy and Newton-Meter for Torque, a vector energy. The Physics Community should vome to realize that Energy is Quaternion quantity consisting of a scalar part and a vector part. The Cosmos consists of scalar and vector quantities. The proper term for energy of a moving object is vector energy. The two terms for energy can be called, Boson/scalar and Fermion/vector energy.
It's a scalar quantity .
Potential energy is a scalar quantity. Energy is the sum of a scalar part and a vector part. Energy W is the product of velocity V and momentum P; W = [c+V]P =[ -V.P + cP]. The Potential energy is the scalar energy -V.P=-vmv = -mv^2.Physicists consider energy a scalar quantity, but that is incorrect, energy is a Quaternion quantity, a scalar and a vector . The vector energy is the "Dark Energy" is hidden in plain sight, cP.
Gravitational potential energy is a scalar. Gravity also has a vector energy cmV= cP.
Efficiency is a scalar quantity because it can increase in magnitude but does not have any particular direction. :)
Kinetic Energy, which is: KE = 1/2mv^2 or the kinetic energy is equal to one half the sum of the mass and the square of the velocity Answer2: Energy is a quaternion quantity with a scalar/potential and a vector component. The vector component is mcV. Physics does not recognize vector energy. Kinetic energy is rightfully the vector energy mcV, not a scalar energy, 1/2 mv^2.
Kinetic Energy, which is: KE = 1/2mv^2 or the kinetic energy is equal to one half the sum of the mass and the square of the velocity Answer2: Energy is a quaternion quantity with a scalar/potential and a vector component. The vector component is mcV. Physics does not recognize vector energy. Kinetic energy is rightfully the vector energy mcV, not a scalar energy, 1/2 mv^2.
Vector energy. This term is not widely known or used. Physicists declare energy a scalar quantity, including the term kinetic energy. A moving object is uniformly assumed to have Momentum, a vector quantity.The energy associated with Momentum is Momentum Energy, cP (This is the widely looked for "Dark energy") Physicists use a term for another vector energy, Torque . Physicists use Joule for scalar energy and Newton-Meter for Torque, a vector energy. The Physics Community should vome to realize that Energy is Quaternion quantity consisting of a scalar part and a vector part. The Cosmos consists of scalar and vector quantities. The proper term for energy of a moving object is vector energy. The two terms for energy can be called, Boson/scalar and Fermion/vector energy.
A scalar quantity is a quantity that has only a magnitude value, whereas a vector quantity is a quantity with magnitude and a direction. Now when looking at speed vs. velocity, we know that the speed of an object can either be larger in magnitude or smaller in magnitude compared to a velocity where the object can be going in a specific magnitude but heading West, East, or North. This concept can be applied to temperatures. Temperature is a scalar quantity because it reveals the magnitude of the kinetic energy within that environment or object. If we look even deeper, kinetic energy or just energy is a scalar quantity, energy being the capacity to do work.
A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).
Kinetic energy is a vector energy. Energy is a quaternion consisting of a scalar energy/potential energy EP and kinetic/vector energy EK. Typically Kinetic energy is EK= mcV where V is the velocity , a vector.
scalar direction is a vector quantity
vector