zeiss real-timelensthicknesscalculatorand visualizer

The Tier II Parabolic Microphone has a range of 30 metres forward and has an additional screen which will display three sets of numbers:

Lens thickness refers to the measurement of a lens from its front surface to its back surface at the thickest point. This measurement is typically given in millimeters and can vary greatly depending on the type of lens and its prescription strength. For example, a high prescription lens will typically be thicker than a low prescription lens. The thickness of a lens can also be influenced by the type of material used to make the lens, with some materials allowing for thinner lenses than others.

Twolens calculator

Parabolic Microphone Tier I Tier II Tier III The 8X21, parabolic microphone, can amplify sounds much further than the naked ear can hear. Price $50 Max Amount 2 Uses N/A Starter No Required Level Tier I Tier II Tier III 7 31 72 While using the Parabolic Microphone and attached headphones, you will be able to hear sounds further away than normal, depending on which way you are aiming the microphone. Properties(Tier I) Range (m): 20Sensor Shape: WideElectronic Upgraded and improved, this parabolic microphone is perfect for listening in on those paranormal conversations! Price $50 Max Amount 2 Uses N/A Starter No Required Level Tier I Tier II Tier III 7 31 72 We’ve improved this Parabolic Microphone with a couple upgrades; a better sensor and a small screen.Turning it on will allow you to hear distance sounds, as well as get a visual reading on how loud that sound is. Properties(Tier II) Range (m): 30Sensor Shape: WideDisplay ScreenElectronic A high-quality microphone accompanied by a screen with a custom-made interface. Price $50 Max Amount 2 Uses N/A Starter No Required Level Tier I Tier II Tier III 7 31 72 This Parabolic Microphone has been improved with a visual sound indicator.Each time a sound is detected within the microphone’s range, a visual indicator will be shown on the screen, including distance and volume, allowing you to easily track where the sound is coming from. Properties(Tier III) Range (m): 30Sensor Shape: WideDisplay ScreenDistance IndicatorDirectional IndicatorElectronic

Enter the refractive index of the lens material, as well as the radii of curvature of both surfaces, into the calculator to determine the lens thickness; this calculator can also evaluate any of the variables given the others are known.

The Tier I Parabolic Microphone has a range of 20 metres forward. It has a red light that will flicker when it detects a sound.

Lensthickness chart

The Tier III Parabolic Microphone is similar to the Tier II Parabolic Microphone but it additionally includes a sonar function, allowing its screen to display the position, and the volume of each individual sound. It can also detect sounds one floor above or below the user.

The parabolic microphone allows the player to hear an idle ghost's paranormal sounds (voices, growls, etc.), as well as amplifying any other sounds. The parabolic microphone must be inside the building to detect sounds. When activated, the player will distinctively hear the sounds produced in front of the microphone with an angle of 110° horizontally, whether they are made by the ghost, another player, active equipment, or ambient noises, while all other sounds will be muffled.

An idle ghost's paranormal sounds are normally inaudible. Those sounds become audible to a player using a parabolic microphone. Paranormal sounds can only be heard when aiming toward the ghost.

The parabolic microphone, sometimes referred to as a paramic, is a piece of equipment in Phasmophobia. It can detect sound through walls and at a great distance. It serves as a portable version of the sound sensor. Although generally disregarded for smaller maps, it may come in handy on larger ones (such as Brownstone High School and Sunny Meadows Mental Institution) for locating the ghost.

To calculate the lens thickness, subtract the radius of curvature of the second surface from the radius of curvature of the first surface. Multiply the result by the refractive index of the lens material and divide by 2.