The volume is doubled.
The wavelength is halved.
Wavelength is halved.
It will be the same.
The volume of a pyramid is given by the formula ( V = \frac{1}{3} \times \text{Base Area} \times \text{Height} ). If the height is halved, the new volume becomes ( V' = \frac{1}{3} \times \text{Base Area} \times \frac{\text{Height}}{2} ), which simplifies to ( V' = \frac{1}{2} \times V ). Therefore, when the height of a pyramid is halved, the volume is also halved.
It is halved. 48/12 = 4 48/24 = 2
It is halved.It is halved.It is halved.It is halved.
The wavelength is halved.
if kelvin temp is halved, the volume is halved if pressure is constant.
The output is doubled.
the output is halved
Wavelength is halved.
If the frequency of a sound is doubled, the wavelength would be halved. This is because wavelength and frequency have an inverse relationship: as one increases, the other decreases.
It is halved. coz voltage=current * resistance
If the frequency of a wave is doubled while the wave speed remains constant, the wavelength of the wave will be halved. This is because wavelength and frequency are inversely proportional in a wave, so when one doubles, the other is halved to keep the wave speed constant.
The density decreases by half. You find the answer by knowing that density is equal to mass divided by the volume. If the mass stays constants and the volume is doubled, then the density is halved.
If the frequency is doubled, the wavelength of the wave will be halved. This is because the speed of the wave remains constant, so as frequency increases, the wavelength decreases to maintain that constant speed.
If the force acting on an area is doubled while the area is halved, the pressure remains the same. This is because pressure is the result of force distributed over an area, so as long as the force and area change proportionally, the pressure stays constant.