explain the header format of IPV6
The header format of IPv6 (Internet Protocol version 6) is designed to be more efficient and flexible than its predecessor, IPv4. The IPv6 header consists of 8 fields, each of which contains different types of information:

1. Version (4 bits): This field specifies the version of IP being used. For IPv6, the value is always 6.

1. Traffic Class (8 bits): This field is used to identify and prioritize different types of traffic. It is similar to the IPv4 Type of Service (ToS) field.

1. Flow Label (20 bits): This field is used to identify packets belonging to a particular flow, such as a multimedia stream. It is used to ensure that packets belonging to the same flow are handled consistently by routers.

1. Payload Length (16 bits): This field specifies the length of the packet's payload (i.e., the data being transmitted) in bytes.

1. Next Header (8 bits): This field specifies the type of the next header following the IPv6 header. This can be another IPv6 header, a transport protocol header (e.g., TCP or UDP), or an extension header.

1. Hop Limit (8 bits): This field is similar to the Time to Live (TTL) field in IPv4. It specifies the number of routers that a packet can pass through before it is discarded.

1. Source Address (128 bits): This field specifies the source IP address of the packet.

1. Destination Address (128 bits): This field specifies the destination IP address of the packet.

Overall, the header format of IPv6 is designed to be more efficient and extensible than IPv4, while still providing the necessary information for routing and delivery of packets.
Why is it taking so long for IPv6 to be adopted?
IPv6 adoption has been slow for several reasons, including:

1.  Addressing: One of the primary reasons for the slow adoption of IPv6 is the challenge of transitioning from the 32-bit IPv4 address space to the 128-bit IPv6 address space. The IPv4 address space has around 4.3 billion addresses, which has been almost exhausted due to the rapid growth of the Internet. IPv6, on the other hand, provides an almost limitless number of addresses, which makes it more scalable and better suited for future growth. However, this transition requires significant effort and investment.
    
2.  Compatibility: IPv6 is not backward compatible with IPv4, which means that networks and devices must be upgraded to support IPv6. This can be a time-consuming and expensive process, and many organizations may be reluctant to invest in new equipment and software.
    
3.  Awareness: Many organizations may not be aware of the benefits of IPv6 or the urgency of the transition. This lack of awareness can result in a lack of motivation to adopt IPv6.
    
4.  Cost: The adoption of IPv6 requires significant investment in new equipment, software, and training. This can be a major barrier for smaller organizations with limited resources.
    
5.  Incentives: There are currently few incentives for organizations to adopt IPv6. This lack of incentives can result in a lack of motivation to invest in the transition.
    

Overall, the slow adoption of IPv6 is a complex issue that involves technical, economic, and cultural factors. While IPv6 provides significant benefits over IPv4, it will likely take time for organizations to make the transition, particularly for smaller organizations with limited resources.
How do I know that I'm using IPv6? And if don't have it, how do I get it? Can I get it without waiting for an ISP to include it? If so, How?
You could check if you're using IPv6 by checking your IP address. That can be done through the command line in Windows or the Terminal in Unix-like systems or by checking a website like whatismyip.com

If you're using IPv6 your address would look something like `2001:0db8:85a3:0000:0000:8a2e:0370:7334`.

If you don't have IPv6, you can obtain it in a few ways:

 Contact your Internet Service Provider (ISP) and inquire about their IPv6 support. They might provide you with IPv6 connectivity if it's available in your area.

 Use a tunnel broker service, such as Hurricane Electric's TunnelBroker or SixXS, which provides IPv6 connectivity over your existing IPv4 connection.