yes
It is the amount if current it takes for unit deflection in the given galvanometer. k = I/theta Where k is the figure of merit, I is the current supplied and Theta equals the number of divisions of deflection.
it is amount if current takes for unit diffection in given galvanometer
The figure of merit of a galvanometer depends on its sensitivity, which is the amount of deflection for a given current; its damping, which is how quickly the needle returns to zero position after being deflected; and its resistance, which affects the amount of current needed for deflection.
It is defined as the current which produces a deflection of one scale division in the galvanometer and is given by, G= k/NBA where, k is the torsion constant. N is the number of turns in the coil B is the magnetic field and, A is the ares of cross section of the coil.
Impossible to figure out. You did not mention any dimensions of the figure. You mush have the dimensions.
A figure of merit correlated with the energyefficiency of a device. It can be calculated by the product of propagation delay time with power dissipation.
Impossible to figure out. You did not mention any dimensions of the figure. You mush have the dimensions.
A figure of merit correlated with the energyefficiency of a device. It can be calculated by the product of propagation delay time with power dissipation.
The figure of merit is used to evaluate the performance of a sensor by considering factors like sensitivity, resolution, and noise. Current sensitivity specifically refers to the ability of a sensor to respond to changes in current. A higher figure of merit indicates better overall sensor performance, which can be influenced by the current sensitivity of the sensor.
plane figure
No but if it is enlarged its dimensions are changed
Depends what you mean by the "size" of the figure.To double the linear dimensions of the figure ===> Multiply the linear dimensions by 2.To double the area of the figure ===> Multiply the linear dimensions by sqrt(2). (1.4142)