Improving this answer and cover all details probably needs some article or similar. I will try to keep things short and make focus on iOS side, since Arduino basically doesn't have limitations on Bluetooth peripherals which are widely available via Arduino BLE shields, such is RedBearLab BLE Shild
Bluetooth v2.0 + EDR, v2.1 + EDR, v3.0 + HS....
Bluetooth stack specification prior to v4.0 doesn't contain Low Energy part. Although it is easy to use protocol, especially if simplified around SPP (Serial Port Profile) it is not available on Apple iOS devices without MFi program. There are few Bluetooth modules on the market such is Pan1321 from Panasonic which includes Apple authentication coprocessor and which could be used with iOS. Sad part of the story is that if you take look on this official page iOS: Supported Bluetooth profiles SPP is not there so you can choose between listed profiles (what you probably will if you are making audio or HID device).
Bluetooth Low Energy (BLE)
Migration from Bluetooth v3.0 specification to v4.0 introduced BLE. New part of specification has very little in common with previous. Basically you could look on it as Bluetooth v3.0 + BLE = v4.0 or Bluetooth Smart. BLE part of v4.0 specification is what we are interested for.
Beside all the advantages of BLE such are low power consumption, small size, low cost, the most important was adoption by mobile manufacturers, including Apple (no MFi needed). BLE is fully supported by CoreBluetooth and implementation on iOS side is straightforward. One thing that you have to keep in mind is that BLE is low energy but also low speed. Although standard specifies minimal connection interval of 7.5ms Apple documentation says recommendation is 30ms :-D What I have experienced using bunch of different chips and iOS devices is that you will be capable to transmit 20bytes every 20-30ms. If acknowledgment is needed, than make it double, like 40-60ms.
The list of standard BLE profiles is available by Bluetooth Special Interest Group (SIG). Take a look on GATT Based. Unfortunately, if you don't make an heart rate monitor or device from list you will probably use battery service or similar from a profiles list. Fortunately it is not complicated to create custom profile, which will be "placeholder" for application specific data you have to transmit. Understanding of Roles, GATT (Services and Characteristics), UUIDs and other is mandatory, but learning curve or BLE stack is not difficult in my opinion.
Once when BLE profile, running on embedded device is known, connection and communication over BLE is very simple using CoreBluetooth library.
Apple made little hack using BLE standard as "carrier" for iBeacon. They are using manufacturer specific data in BLE advertising packet to "claim" that some device is iBeacon. Which is perfectly OK, I would say. What you should keep in mind is that BLE is not iBeacon, but all iBeacons are BLE (device with hardcoded manufacturer specific data, exposing RSSI, UUID, major and minor in broadcast BLE mode). Additionally, iBeacon is handled by CoreLocation not CoreBluetooth. This makes clear what was Apple intension with iBeacon.
If you want to integrate iOS device with Arduino or some other embedded device BLE is definitely something that you want to consider. There are additional reasons why you want to learn more about BLE if you take a look on IoT hype and available RF options. BLE is here to stay with v4.1 and upcoming v4.2 specifications which will improve bandwidth, bring support for IPv6, better security, etc.
At the end, not so short, but I hope it helps.