(7! The hexadecimal dump from part of a computer's memory is as follows: 4265, 6769 6EFA 47FE B087 C800/ E000 000 0086 3253 7A29 0000: 0010: The dump is made up of rows of groups of four hexadecimal characters. Each row contains up to nine 16-bit groups. The first group of a row (terminated in a colon) is an address and defines the first location into which the following groups are to be loaded. For example, the first group in the second row is $0010. The second group is $C800 which is the contents of location $0010. The next group, $E000, is the contents of $0012, and so on. The 22 bytes of data represent the following sequence of items: a. five consecutive ASCII-encoded characters b. one unsigned 16-bit integer c. one two's complement 16-bit integer d. one unsigned 16-bit fraction e. one 6-digit natural BCD integer f. two 32-bit IEEE format floating point numbers (7! The hexadecimal dump from part of a computer's memory is as follows: 4265, 6769 6EFA 47FE B087 C800/ E000 000 0086 3253 7A29 0000: 0010: The dump is made up of rows of groups of four hexadecimal characters. Each row contains up to nine 16-bit groups. The first group of a row (terminated in a colon) is an address and defines the first location into which the following groups are to be loaded. For example, the first group in the second row is $0010. The second group is $C800 which is the contents of location $0010. The next group, $E000, is the contents of $0012, and so on. The 22 bytes of data represent the following sequence of items: a. five consecutive ASCII-encoded characters b. one unsigned 16-bit integer c. one two's complement 16-bit integer d. one unsigned 16-bit fraction e. one 6-digit natural BCD integer f. two 32-bit IEEE format floating point numbers