Examples of vector energy Torque = FxD = FDsin(FD) also particle motion , E= mcV.
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.
The universal Law of Gravity, Total Energy W = -mGM/r + cmV = -mGM/r + cP. Newton discovered the scalar energy -mGM/r. Newton did not recognize the vector Momentum energy cmV=cP. The vector energy is the so-called "Dark Energy". Gravitational Energy is the sum of the Potential/Scalar and Vector Energy, i.e a Quaternion Energy.
The poynting vector is that one which represents the directional energy flux density of the electromagnetic field.
This is untrue. There are 8 types of energy: 1- Light Energy- A light bulb. 2- Sound Energy- Some speakers 3- Electrical Energy- A laptop 4- Thermal/Heat Energy- A hot saucepan 5- Kinetic Energy- A moving object 6- Chemical Energy- Contained in our muscles, and contained in food. 7- Gravitation Potential Energy-The higher up. The bigger Gravitational Potential. 8- Elastic/Strain Energy- A catapult/ or elastic band. Hope this helps. Kind Regards.
Scalars and vectors quantities can represent the same measure e.g.Energy = -mu/r + mc, ; -mu/r is scalar energy and mcV is vector energy.
Examples of vector quantity are displacement, velocity, acceleration, momentum, force, E-filed, B-field, torque, energy, etc.
Examples of vector quantity are displacement, velocity, acceleration, momentum, force, E-filed, B-field, torque, energy, etc.
Energy is energy and it comes in two types, real energy and vector energy. Real energy is characterized by the square of the real is a positive. Vector energy is characterized by the square of the vector is negative. If kinetic energy is not real energy it must be vector energy. Real energy is called Potential energy and vector energy is a new term that should be used for kinetic energy. Kinetic or vector energy differs because it is a vector. All forms of energy are either Real or Vector energies. Kinetic connotes motion but the distinction is real or vector. E= mv^2 is a real energy not a vector yet it denotes motion with v a speed.
Some examples of a vector quantity would be a car or a plane.
Examples of vector quantity are displacement, velocity, acceleration, momentum, force, E-filed, B-field, torque, energy, etc.
The energy vector, cmV = cP. The energy vector is parallel to the Momentum vector.
The energy of a moving object is called the Vector energy. It is also called Kinetic energy but there is a distinction between Potential energy a real energy and vector energy a vector. it is not clear in physics whether Kinetic energy is a vector or real energy. For example 1/2 mv^2 is called kinetic energy but it is not vector energy.
The energy of a moving object is called the Vector energy. It is also called Kinetic energy but there is a distinction between Potential energy a real energy and vector energy a vector. it is not clear in physics whether Kinetic energy is a vector or real energy. For example 1/2 mv^2 is called kinetic energy but it is not vector energy.
Energy is a scalar quantity.Answer2: It depends on the angle!Energy can be a scalar or a vector; consider the vectors F force and D displacement:FD = -F.D + FxD = |FD| (cos(angle) + v sin(angle)).F.D is called work a form of energy and is a scalar; FxD is called Torque and is a vector form of energy. both work and Torque have units of joules or newton times meters.Energy like many quantities in physics is a quaternion consisting of a scalar part and a vector part; E = Escalar + Evector = E(cos(angle) + v sin(angle)), whether the quantity is a scalar or a vector or both depends on the angle.
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.
Kinetic energy is another name for scalar energy. Kinetic energy is provided by the vector energy cmV=cP, the momentum energy. Momentum is a vector and Momentum energy cP is also a vector, a vector energy. This Momentum Energy gives the velocity V and speed v and thus the "kinetic energy". The electron vector energy is cmV=cP and and the scalar energy is vp ! it is clear that te sclar energy vp=mv2 is much smaller than the vector energy cVm. the so-called kinetic energy is vp/2 = 1/2 mv2. kinetic energy is a product of the vector energy cmV, no Velocity , no kinetic energy.
I am not aware of any well known examples of vector art. However, anything done by well known vector artists such as Cristiano Siqueira would be good examples.