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The ships are not made of solid iron. They contain much empty space where the cargo and or passengers go. So the overall density of a ship: its TOTAL mass divided by its TOTAL volume is less than that of water.
As the first digit after the decimal place is a zero, the overall figure is rounded down to 567.
You look at the digit in the hundred thousands position, which is a 1. That will cause a rounding down of the overall number to 14000000.
You could still make the same cut but, overall you need to make at least one cut that is different from previous nets - and that is after taking account of any symmetries.
Four primary aspect of exposure: mA: controls density - overall blackness of image kVp: controls contrast Exposure time: how long the exposure lasts Distance (SID) : source distance - how far away the body part is from the primary beam
Mercury. Although it has a high density, it's the smallest planet and least massive overall.
I think you've shortened your question a bit too much for clarity. Why heavy ships are still able to float is often explained by saying that they are able to push away enough water to equal their own weight. It's all down to OVERALL density. Things that have a higher density than water sinks, and things that have a lower density than water floats. Now, water has no clue to the density of the material, it can only react to the overall density of the complete item. So if you take a heavy material, but turn it into a big, thin-walled container, the overall density of that container can still be less than that of water, and the contaienr will float.
the overall density goes up.
Pakistan's population density is 214/km2.
An item will sink if its overall density is greater that the density of the fluid in which it is placed
The planet with the lowest overall density is Saturn.
The density will rise and submerge the submarine.
The density will rise and submerge the submarine.
mercury
The density of the metal will remain the same. However because the volume of the object has been reduced the overall density will increase
The density of the metal will remain the same. However because the volume of the object has been reduced the overall density will increase
Decrease the overall density of the object, by adding buoyancy aids or filling with air.Increase the density of the liquid.answ2. Rather obviously, ships made of steel are made mainly hollow so as to reduce their overall density.