30% OFF T-Shirts, Tank Tops, Hoodies & More!    |     Ends Soon!     |     Use Code: SHIRTSMADE4U     |     See Details

View from under water iPhone 5 case


per case

  • Back
  • Back Left
    Back Left
  • Back/Right
    Back / Right
  • Bottom
  • Top
  • Back Horizontal
    Back Horizontal
View from under water iPhone 5 case
Designed for youby Prophoto
Barely There
Device Type
Select an option:
About This Product
  • Sold by
Style: Case-Mate Barely There iPhone SE + iPhone 5/5S Case

Protect your iPhone with a customisable Barely There Case-Mate case. This form-fitting case covers the back and corners of your iPhone 5/5S with an impact resistant, flexible plastic shell, while still providing access to all ports and buttons. Designed for iPhone SE + iPhone 5/5S, this sleek and lightweight case is the perfect way to show off your custom style.

  • Fits Apple iPhone SE + iPhone 5/5S
  • Durable & lightweight hard plastic case
  • Access to all ports, controls & sensors
  • Printed and shipped from the USA.
  • Designer Tip: To ensure the highest quality print, please note that this product’s customisable design area measures 12.7 cm x 7.1 cm. For best results please add 1 cm bleed.
About This Design
available on 4 products
View from under water iPhone 5 case
AssetID: 122626618 / Datacraft Co Ltd / View from under water Underwater is a term describing the realm below the surface of water where the water exists in a natural feature (called a body of water ) such as an ocean , sea , lake , pond , or river . Three quarters of the planet Earth are covered by water. A majority of the planet's solid surface is abyssal plain , at depths between 4,000 and 5,500 metres (13,000 and 18,000 ft) below the surface of the oceans. The solid surface location on the planet closest to the centre of the orb is the Challenger Deep , located in the Mariana Trench at a depth of 10,924 m (35,838 ft) under the sea. Although a number of human activities are conducted underwater—such as research, scuba diving for work or recreation , or even underwater warfare with submarines , this very extensive environment on planet Earth is hostile to humans in many ways and therefore little explored. But can be explored by sonar , or more directly via manned or autonomous submersibles. The ocean floors have been surveyed via sonar to at least a coarse resolution; particularly-strategic areas have been mapped in detail, in the name of detecting enemy submarines, or aiding friendly ones, though the resulting maps may still be classified. An immediate obstacle to human activity under water is the fact that human lungs cannot naturally function in this environment. Unlike the gills of fish , human lungs are adapted to the exchange of gases at atmospheric pressure , not liquids . Aside from simply having insufficient musculature to rapidly move water in and out of the lungs, a more significant problem for all air-breathing animals, such as mammals and birds , is that water contains so little dissolved oxygen compared with atmospheric air. Air is around 21% O2 ; water typically is less than 0.001% dissolved oxygen. The density of water also causes problems that increase dramatically with depth. The atmospheric pressure at the surface is 14.7 pounds per square inch or around 100 kPa. A comparable water pressure occurs at a depth of only 10 m (33 ft) (9.8 m (32 ft) for sea water). Thus, at about 10 m below the surface, the water exerts twice the pressure (2 atmospheres or 200 kPa) on the body as air at surface level. For solid objects like human bones and muscles, this added pressure is not much of a problem; but it is a problem for any air-filled spaces like the mouth , ears , paranasal sinuses and lungs. This is because the air in those spaces reduces in volume when under pressure and so does not provide those spaces with support from the higher outside pressure. Even at a depth of 8 ft (2.4 m) underwater, an inability to equalise air pressure in the middle ear with outside water pressure can cause pain, and the tympanic membrane can rupture at depths under 10 ft (3 m). The danger of pressure damage is greatest in shallow water because the rate of pressure change is greatest at the surface of the water. For example the pressure increase between the surface and 10 m (33 ft) is 100% (100 kPa to 200 kPa), but the pressure increase from 30 m (100 ft) to 40 m (130 ft) is only 25% (400 kPa to 500 kPa). Any object immersed in water is provided with a buoyant force that counters the force of gravity , appearing to make the object less heavy. If the overall density of the object exceeds the density of water, the object sinks. If the overall density is less than the density of water, the object rises until it floats on the surface. With increasing depth underwater, sunlight is absorbed, and the amount of visible light diminishes. Because absorption is greater for long wavelengths (red end of the visible spectrum ) than for short wavelengths (blue end of the visible spectrum), the colour spectrum is rapidly altered with increasing depth. White objects at the surface appear bluish underwater, and red objects appear dark, even black. Although light penetration will be less if water is turbid , in the very clear water of the open ocean less than 25% of the surface light reaches a depth of 10 m (33 feet). At 100 m (330 ft) the light present from the sun is normally about 0.5% of that at the surface. The euphotic depth is the depth at which light intensity falls to 1% of the value at the surface. This depth is dependant upon water clarity, being only a few metres underwater in a turbid estuary, but may reach up to 200 metres in the open ocean. At the euphotic depth, plants (such as phytoplankton ) have no net energy gain from photosynthesis and thus cannot grow. At depths greater than a few hundred metres, the sun has little effect on water temperature, because the sun's energy has been absorbed by water at the surface. In the great depths of the ocean the water temperature is very cold. In fact, 75% of the water in the world ocean (the great depths) has a temperature between 0 °C and 2 °C. Water conducts heat around twenty five times more efficiently than air. Hypothermia , a potentially fatal condition, occurs when the human body's core temperature falls below 35 °C. Insulating the body's warmth from water is the main purpose of diving suits and exposure suits when used in water temperatures below 25 °C. Sound is transmitted about 4.3 times faster in water (1,484 m/s in fresh water) as it is in air (343 m/s). The human brain can determine the direction of sound in air by detecting small differences in the time it takes for sound waves in air to reach each of the two ears. For these reasons divers find it difficult to determine the direction of sound underwater. However, some animals have adapted to this difference and many use sound to navigate underwater. This page is not affiliated with, or endorsed by, anyone associated with the topic.
30% OFF T-Shirts, Tank Tops, Hoodies & More!    |     Ends Soon!     |     Use Code: SHIRTSMADE4U     |     See Details
There are no reviews for this product yet.
Have you purchased this product? Write a review!
Casemate Cases




low angle

food and drink


instrument of measurement




All Products:
natureshadebrightlow anglefood and drinkfantasyinstrument of measurementhorizontaloutdoorslit
Other Info
Product ID: 179846470594774968
Created on
Recently Viewed Items