I am currently trying to derive a Bitcoin uncompressed ECDSA public key from a compressed one.

According to this link on the Bitcoin wiki, it is possible to do so... But how?

To give you more details: as of now I have compressed keys (33-bytes-long) gathered on the bitcoin network.

They are of the following format: <1-byte-long prefix><32-bytes-long X>. From there, I would like to obtain an uncompressed key (65-bytes-long) whose format is: <1-byte-long prefix><32-bytes-long X><32-bytes-long Y>

According to this other link on the Bitcoin wiki, it should be as easy as solving the equation:

Y^2 = X^3 + 7

However, I cannot seem to get there. My value for Y is simply far-off. Here is my code (the value for the public key come from the Bitcoin wiki example):

```
import binascii
from decimal import *
expected_uncompressed_key_hex = '0450863AD64A87AE8A2FE83C1AF1A8403CB53F53E486D8511DAD8A04887E5B23522CD470243453A299FA9E77237716103ABC11A1DF38855ED6F2EE187E9C582BA6'
expected_y_hex = expected_uncompressed_key_hex[-64:]
expected_y_dec = int(expected_y_hex, 16)
x_hex = expected_uncompressed_key_hex[2:66]
if expected_y_dec % 2 == 0:
prefix = "02"
else:
prefix = "03"
artificial_compressed_key = prefix + x_hex
getcontext().prec = 500
test_dec = Decimal(int(x_hex, 16))
y_square_dec = test_dec**3 + 7
if prefix == "02":
y_dec = - Decimal(y_square_dec).sqrt()
else:
y_dec = Decimal(y_square_dec).sqrt()
computed_y_hex = hex(int(y_dec))
computed_uncompressed_key = "04" + x + computed_y_hex
```

For information, my outputs are:

```
computed_y_hex = '0X2D29684BD207BF6D809F7D0EB78E4FD61C3C6700E88AB100D1075EFA8F8FD893080F35E6C7AC2E2214F8F4D088342951'
expected_y_hex = '2CD470243453A299FA9E77237716103ABC11A1DF38855ED6F2EE187E9C582BA6'
```

Thank you for your help!