That statement is most closely related to the Second Law of Thermodynamics.
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.
A Scalar Quantity has only magnitude whereas a Vector Quantity has magnitude as well as direction.Examples of scalar quantities are time, mass, distance, etc.
A Scalar Quantity has only magnitude whereas a Vector Quantity has magnitude as well as direction.Examples of scalar quantities are time, mass, distance, etc.
Yes , speed in a given direction is called velocity. Velocity is a vector quantity that is it has both magnitude as well as direction.
Scaler Quantity- quantities which are described only by magnitude.Vector Quantity- quantities which are described by both magnitude as well as direction.
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.
It is theoretically possible, but realistically they will not qualify this season, and would do well to qualify any time within the next two or three years.
A Scalar Quantity has only magnitude whereas a Vector Quantity has magnitude as well as direction.Examples of scalar quantities are time, mass, distance, etc.
a vector
No. Well, not in my opinion I don't.
Well really you'd have to be presenters on the show.
Well, I know the quantity. Maybe, people say that there is no quantity but there is. I am a DEFINITE book wizard. It is amazing actually. The syllogism quantity is beyond experienced. Well, maybe only I know that. I guess. But the quantity of the syllogism is more underestimated that it is overestimated. Well, that is most of the syllogism I know, so goodbye and good day or goodnight.
A Scalar Quantity has only magnitude whereas a Vector Quantity has magnitude as well as direction.Examples of scalar quantities are time, mass, distance, etc.
As you'll know, the amount of energy you can get from (say) steam, is limited by the difference between the hottest the steam is, and the condensation temperature. So if we confine the steam, we can heat it well above the usual boiling point, and thus the quantity of energy we can extract is greater.
A quantity surveyor works at Construction industry. So seek business firm which work in that business and you can find opportunities. Or you search in us job portals with that keyword.
If the price is low, suppliers may well not wish to supply the full quantity that is demanded by consumers.The quantity demanded and quantity supplied determines the equilibrium price in the market. The quantity where these two are equal, that is where the market price is set.
well it means amount of