by hertz and amplitude
amplitude
The maximum displacement upwards is given by the equation y=-vxv/2g. At the peak, the value of velocity is said to be v=0.
Displacement current can not be measured by ammeter because it is the current which produce between the plate (space)due to change of electric flux and it is directly proportional to the rate of change of electric flux.
The P wave refers to the electrocardiographic representation of electrical activation of the atrial myocardium. It can be measured using an electrocardiogram.
You are probably asking how Wavelegth is measured.......yes the distance between similar points on any waves is the WAVELENGTH . You count the number per second to get the FREQUENCY in cycles per second or HERTZ.... If the Frequency is very low it may take more than one second to complete a wave , then the Frequency is a fraction of a Hertz .ie 0.5hz takes two seconds to complete one wave.....
Because some objects have an irregular shape, therefore cannot be measured like a square could.
The term for maximum displacement is the amplitude of the wave.
It is the the maximum displacement or distance moved by a point on a vibrating body or wave measured from its equilibrium position.
The correct term from the maximum displacement from the rest position in a wave is the Amplitude (A).
amplitude.
Amplitude, which is defined as the maximum displacement of a wave from it's centre of oscillation.
amplitude
maximum displacement = amplitudeThus, amplitude = 26.0 cm
Amplitude
That is called the amplitude.
Amplitude is the magnitude of change in the oscillating variable,with each oscillation,within an oscillating system.
the wave produced in a stretched string will be a standing wave .it will have a node and antinode.node means point with zero displacement and antinode means point with maximum displacement
the maximum displacement of a wave particle is called the amplitude.also wave particles at maximum displacement form crests.therefore the amplitude of two crests should be the same.hence the amplitude of the wave when two crests meet is two times the amplitude of one the two crests.