In, and interact will be art a fresh copy of Texas, and create a new Microcomputer file. mand and select the MC9S12C32. Save this document as Projectl.uc. Microcomputer file. Execute the Mode->Processor.. pen a new program file and call it Projectl.rtf (Try using SF800 for starting at mbler program as demonstrated in class to solve the operations as indicated in gram window and execute the Assemble-> Assemble command 1.rtf . (Try using SF800 for starting address) Create an to solve the operations as indicated in the table below. Clic -ingle step through the program using Texas. Indicate the appropriate answers for Results, and VC bits by completing the table below. Turn in the completed table, and a stapled copy of your asser rce code for credit. Express R in hexadecimal. Prob. Io (OP) In R (Texas) N-Z-V-C %10110101 +. OF 1000 -76 $3F & %01011000 32 -27 $87 $E5 $69 201 > 3 In, and interact will be art a fresh copy of Texas, and create a new Microcomputer file. mand and select the MC9S12C32. Save this document as Projectl.uc. Microcomputer file. Execute the Mode->Processor.. pen a new program file and call it Projectl.rtf (Try using SF800 for starting at mbler program as demonstrated in class to solve the operations as indicated in gram window and execute the Assemble-> Assemble command 1.rtf . (Try using SF800 for starting address) Create an to solve the operations as indicated in the table below. Clic -ingle step through the program using Texas. Indicate the appropriate answers for Results, and VC bits by completing the table below. Turn in the completed table, and a stapled copy of your asser rce code for credit. Express R in hexadecimal. Prob. Io (OP) In R (Texas) N-Z-V-C %10110101 +. OF 1000 -76 $3F & %01011000 32 -27 $87 $E5 $69 201 > 3