Examples of scalar energy, Work= F.D = FDcos(FD) and E= -GmM/r and E= e^2zc/r and
E=hf = hc/r.
Here are some examples:* energy * power * mass
A scalar is a quantity that has no direction. Examples include: -- cost -- temperature -- speed -- energy -- work -- mass -- weight -- volume -- density -- duration
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.
That's called a "scalar" quantity. Examples include temperature, speed, and energy.
Gravitational potential energy is a scalar. Gravity also has a vector energy cmV= cP.
Length, mass, volume, temperature, density, and energy are all examples of scalar quantities.
A scalar quantity is something that has magnitude but no directional component. Examples of scalar quantities include time, mass, energy, speed, temperature, and volume.
Here are some examples:* energy * power * mass
energymassspeedbrightnesssound volumecostintelligencealbedopowerDC resistance
A scalar is a quantity that has no direction. Examples include: -- cost -- temperature -- speed -- energy -- work -- mass -- weight -- volume -- density -- duration
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.
That's called a "scalar" quantity. Examples include temperature, speed, and energy.
Gravitational potential energy is a scalar. Gravity also has a vector energy cmV= cP.
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.
energy from the sun
energy from the sun
Yes. Energy is a scalar quantity. Doesn't matter what kind of.