Question: *Please help answer #1 (a.b.c) , #2 (a.b,c), and #3(a,b) 1. OR/NOR GATE: 1.a. The OR gate can enable/disable a digital signal on one input,
*Please help answer #1 (a.b.c) , #2 (a.b,c), and #3(a,b)
1. OR/NOR GATE:
1.a. The OR gate can enable/disable a digital signal on one input, forcing the output to be (zero, one) by setting the other input to (zero, one)?
i. zero, zero
ii. zero, one
iii. one, zero
iv. one, one
1.b. The logical OR can (clear, set) bits in a destination register (R1) like this: OR R1,R2
i. clear
ii. set
1.c. The NOR gate can enable/disable a digital signal on one input, forcing the output to be (zero, one) by setting the other input to (zero, one)?
i. zero, zero
ii. zero, one
iii. one, zero
iv. one, one
2. AND/NAND GATE:
2.a. The AND gate can enable/disable a digital signal on one input, forcing the output to be (zero, one) by setting the other input to (zero, one)?
i. zero, zero
ii. zero, one
iii. one, zero
iv. one, one
2.b. The logical AND can (clear, set) bits in a destination register (R1) like this: AND R1,R2
i. clear
ii. set
2.c. The NAND gate can enable/disable a digital signal by forcing the output to be (zero, one) by setting one of the inputs to (zero, one)?
i. zero, zero
ii. zero, one
iii. one, zero
iv. one, one
3. XOR Gate:
3.a. The XOR gate can be used to flip bits in a register. (True, False)
i. True
ii. False
3.b. The XOR gate can be used as a controllable inverter of a digital signal. Set the control input to (zero, one) and the output will be the inverse of the signal input.
i. zero
ii. one
Step by Step Solution
There are 3 Steps involved in it
Get step-by-step solutions from verified subject matter experts
Study Help