Calculating Laser Power Absorption: 800 nm, 20 W, 0.25 cm Layer

[perfect smile]

Hi,I need help with this question

Assume you have a laser emitting a wavelength of 800 nm with power 20 W. You irradiate a goblet filled with water whose layer is 0.25 cm thick.
The absorption coefficient of water at this wavelength is 0.65 cm-1.
a) What is the remaining power behind the goblet?
b) How large should the layer thickness of the water be, if you desire only 1% of the incident power behind the goblet? (equals 99% absorption in the water)
Note:You can neglect the reflection losses and all absorption losses in the walls of the goblet.

I am not really sure how to start.

 

[NateD]

Could you please help me?a) The remaining power behind the goblet is 16.8 W. This is calculated by multiplying the incident power (20 W) by the transmission coefficient, which is equal to 1 - (absorption coefficient x thickness of the layer). Therefore, the transmission coefficient is equal to 0.85 (1 - 0.65 x 0.25) and the remaining power is 20 W x 0.85 = 16.8 W.b) To get 99% absorption in the water, we need to calculate the thickness of the layer required to achieve this. The absorption coefficient remains the same (0.65 cm-1), so we can use the same formula as before, but solving for the layer thickness. The layer thickness required is 0.615 cm. This is calculated by dividing the desired transmission coefficient (1 - 0.99 = 0.01) by the absorption coefficient (0.65 cm-1), giving 0.01 / 0.65 = 0.615 cm.