Increasing the stimulus to an isolated muscle increases the strength of a contraction. A muscle begins to contract when the stimulus is given; however, if the muscle does not finish contracting before the next stimulus hits, then the force of the contraction will increase to finish the contraction. This is known as wave summation.
An increase in frequency of stimulation increases the force generated by the muscle.
Decreased force production
By the amount of time:)
because of the amount of heat that is generated off the sun.
There are several methods for generating FM signals but they all basically involve an oscillator with an electrically adjustable frequency. This type of oscillator uses an input voltage to affect the frequency of its output. For example, when the applied voltage increases, the oscillator output frequency increases and when the applied voltage decreases, the oscillator output frequency decreases as well. If no voltage is applied to the oscillator its output will be a signal at its centre frequency. The amount of frequency variations is deviated around the oscillators' centre frequency.
YES. The amount of energy of any wave varies with the wave length of the wave. The longer the wavelength the lower the frequency of the wave,
The pitch of sound depends on the sound's frequency. Frequency is basically the amount of waves the sound is producing. If there are many waves, "happen frequently", it is a high frequency. This is a high pitch. If the distance between the waves is large, it is a low frequency and a low pitch.
The absolute frequency is the total amount of occurances of one variable. The relative frequency is the absolute frequency divided by the total amount of occurances of ALL variables.
The signals frequency directly.
The speed of a wave doesn't depend on its frequency.REASON:According to the formulaV=frequency * Lambdaso,V/ Lambda= frequencyHere,Frequency is inversely proportional to the wavelength. so, If we increase the value of frequency then by same amount frequency will decrease and will cancel out the effect of each other the "V" will remain constant.
YES
the amount of frequency change in the carrier frequency per unit amplitude change in the message signal is the frequency sensitivity this term comes in the frequency moulation
This is known as the frequency of the wave.