Yes. Kinetic energy is given from (1/2)mv^2 where v^2 factor is x'^2+y'^2+z'^2; in other words it's based on magnitude and direction is not relevant.
Yes. Energy is a scalar quantity. Doesn't matter what kind of.
No, kinetic energy is a scalar quantity, not a vector. It only has magnitude and no direction.
The kinetic energy of an object is defined as the energy it possesses due to its motion. It is a scalar quantity that depends only on the mass of the object and its speed, regardless of the direction in which it is moving. This is because kinetic energy is proportional to the square of the speed of the object, which is a scalar quantity.
Particles have both potential and 'kinetic' energy because the energy is a quaternion consisting of a scalar Es and a vector Ev, E = Es + Ev. The 'kinetic' energy is a vector energy mcV. Currently physics 'defines' energy as a scalar not a quaternion, thus 'kinetic' energy is also a scalar and not the vector its name denotes. The idea of potential and kinetic energy implies the quaternion nature of energy, a scalar or potential energy and a vector or kinetic energy. To update Newton's Gravitational Theory E = -mGM/r + mcV = -mu/r + mcV. -mu/r is the potential or scalar or real energy and mcV is the vector or kinetic energy! For Electric energy is the same E = -e2zc/2r + mcV. The wave particle Theory is seen in E = hf + mcV = hc/r + mcV = Q2zc/r + mcV. Physics needs to recognize that the universe is composed of quaternions and energy and other quantities are composed of a scalar or real number and three vector numbers ala William Rowan Hamilton. The same mis naming occurs in Torque = FxR is clearly a vector energy but is precluded from being energy because of the definition of energy as a scalar.
No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.
Yes. Energy is a scalar quantity. Doesn't matter what kind of.
No, kinetic energy is a scalar quantity, not a vector. It only has magnitude and no direction.
Kinetic energy is due to the motion of an object and is a vector energy. Potential energy is due to something's position or state and is a scalar energy.
The kinetic energy of an object is defined as the energy it possesses due to its motion. It is a scalar quantity that depends only on the mass of the object and its speed, regardless of the direction in which it is moving. This is because kinetic energy is proportional to the square of the speed of the object, which is a scalar quantity.
Particles have both potential and 'kinetic' energy because the energy is a quaternion consisting of a scalar Es and a vector Ev, E = Es + Ev. The 'kinetic' energy is a vector energy mcV. Currently physics 'defines' energy as a scalar not a quaternion, thus 'kinetic' energy is also a scalar and not the vector its name denotes. The idea of potential and kinetic energy implies the quaternion nature of energy, a scalar or potential energy and a vector or kinetic energy. To update Newton's Gravitational Theory E = -mGM/r + mcV = -mu/r + mcV. -mu/r is the potential or scalar or real energy and mcV is the vector or kinetic energy! For Electric energy is the same E = -e2zc/2r + mcV. The wave particle Theory is seen in E = hf + mcV = hc/r + mcV = Q2zc/r + mcV. Physics needs to recognize that the universe is composed of quaternions and energy and other quantities are composed of a scalar or real number and three vector numbers ala William Rowan Hamilton. The same mis naming occurs in Torque = FxR is clearly a vector energy but is precluded from being energy because of the definition of energy as a scalar.
When potential energy and kinetic energy are added it creates total energy or Quaternion energy. Energy comes in two forms potential or real energy and vector or "kinetic " energy. Kinetic energy is rightfully vector energy and usually involves motion or velocity. However, torque 'fxr' is vector energy not considered as kinetic energy.The bottom line is, there is real energy like real numbers called potential energy and there is vector energy like kinetic energy mcV, (momentum related energy).Gravitational energy is an example E= -GmM/r + mcV = -mu/r + mcVNewton ignored the kinetic energy of mcV in his gravitational theory. Quaternions are yet to be recognized in science and mathematics as the true numbers of Nature.
No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.No, potential energy is the energy of position. The energy of motion is called kinetic energy.
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.
Kinetic energyAnswer2:Vector Energy !If there is motion, there is a Momentum vector mV=P andvector energy cP=cmV.Energy associated witth motion is vector energy cmV=cP, the so-called "Dark Energy". "kinetic energy" is a scalar energy.The actual energy is Quaternion Energy, the sum of the scalar and vector energy:W = vp + cP = mv2 + cmV = -vh'/r + cP = [-vh'/r, cP].Kinetic is based on motion.
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.
No, mechanical energy is a scalar quantity. It represents the sum of potential and kinetic energy in a system, without direction.