lowers the frequency.The period is the time for one complete wave
When you decrease the wave period, the wavelength becomes shorter and the frequency increases. This results in the wave moving faster.
When a wave period decreases, speed increases.
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
Wave speed is dependent on both wavelength and period. The relationship is described by the formula: wave speed = wavelength / period. As wavelength increases, wave speed also increases. Conversely, as period increases, wave speed decreases.
No, frequency and period are inversely related. As the period of a wave increases, the frequency decreases. Frequency is the number of wave cycles that pass a point in a given time, while period is the time it takes for a wave cycle to complete.
When you decrease the wave period, the wavelength becomes shorter and the frequency increases. This results in the wave moving faster.
When a wave period decreases, speed increases.
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
The period decreases.
Wave speed is dependent on both wavelength and period. The relationship is described by the formula: wave speed = wavelength / period. As wavelength increases, wave speed also increases. Conversely, as period increases, wave speed decreases.
No, frequency and period are inversely related. As the period of a wave increases, the frequency decreases. Frequency is the number of wave cycles that pass a point in a given time, while period is the time it takes for a wave cycle to complete.
When you increase the wave period, the distance between two consecutive wave crests (or troughs) increases. This results in longer wavelengths and slower propagation of the wave. The wave frequency decreases while the wave amplitude remains unaffected.
When the period of a wave decreases, the frequency of the wave increases. This is because frequency and period are inversely related - as one increases, the other decreases. So, a shorter period corresponds to a higher frequency.
The frequency of a wave decreases when its period increases. The frequency (f) of a wave is the number of cycles (or vibrations or oscillations) per unit time. The SI units of frequency is the inverse seconds or hertz (Hz). The period (T) of a wave is the time it takes to complete a cycle. The frequency and period have the following relationship: frequency= 1/period f= 1/T so if the period increases, the frequency decreases.
If the energy of a wave increases, the amplitude of the wave also increases. This is because amplitude is directly proportional to energy - as energy increases, more energy is imparted to the wave causing it to oscillate with greater magnitude.
The period decreases.
frequency