Hacker News new | ask | show | jobs
by ohwp 4612 days ago
I liked to know more about the weight per size, so here a small list:

  iPad    : 680 g / 6186 cm3 = 0.1099 g / cm3
  iPad 2  : 601 g / 3944 cm3 = 0.1523 g / cm3
  iPad Air: 469 g / 3060 cm3 = 0.1532 g / cm3
  iPad 3  : 650 g / 4213 cm3 = 0.1542 g / cm3
  iPad 4  : 650 g / 4213 cm3 = 0.1542 g / cm3
2 comments
ScottWhigham 4612 days ago
I'm trying to understand how you would use that information. Other than "product dimensions" and "product weight", why do you need to calculate/know more? It's interesting and all - I just don't guess I see what the value of knowing the g/cm3 is.
link
ohwp 4612 days ago
"It's interesting and all"

Well it's just that. Apple is promoting their size/weight ratio so I just wanted to know there progress. Nothing more nothing less ;)

link
jasonpbecker 4612 days ago
No, they are not advertising the ratio. They are advertising reducing both. By your size/weight ratio, the original iPad would be the "ideal", but any one who has used any of these devices knows that's absurd.

Density is far less important than the actual size and weight. High density is a demonstration that they've utilized all the available space (since the density of the components themselves are not changing) for components and need less room for heat. Alternatively, it could be a sign that the internal structure matters less than less and only the exterior components (aluminum and glass) are meaningfully different from one version to another.

What makes the iPad Air attractive is not density, it's that there's less of it all around.

link
smackfu 4612 days ago
Density determines how heavy something feels.
link
ableal 4612 days ago
> 0.1542 g / cm3

An excelent flotation device, if a tad small ...

I guess the volume is off by one order of magnitude - a paper notepad of 20 x 30 x 1 centimeters would be 600 cm3.

link
ohwp 4611 days ago
Whoops. You are the first to notice ;)
link