Answer:
D) The antenna connector is not connected properly
Explanation:
The antenna of a laptop is inside the laptop and it is the antenna that gives access to wireless connection.Since the laptop has just been serviced, the antenna connector could have been inadvertently disconnected hence the antenna would not be able to function and wireless connectivity would not work.
Answer:
RAX = 333000h (16 bits with preceding zeros removed)
RDX = 20h (also 16 bits with preceding zeros removed)
Explanation:
The "div" opcode in the assembly language source code is used to divide operands. It accepts a divisor ( the denominator) and divides the content of the AX register. The result is saved in the AX register while the remainder (if any) is saved in the DX register. If the DX register holds any data, the data is replaced with the divisor remnant.
The code above divides the content of the RAX register with the divisor variable and saves the result and remainder in the RAX and RDX respectively.
Answer:
double ComputeGasVolume(double pressure, double temperature, double moles){
double volume = moles*GAS_CONST*temperature/pressure;
return volume;
}
Explanation:
You may insert this function just before your main function.
Create a function called ComputeGasVolume that takes three parameters, pressure, temperature, and moles
Using the given formula, PV = nRT, calculate the volume (V = nRT/P), and return it.
Answer: time of day, duration, due dates
Explanation: I am awsome
Answer:
The answer is "both voluntary and non-voluntary context switch".
Explanation:
The description to this question can be described as follows:
Whenever processing requires resource for participant contextual switch, it is used if it is more in the situation of I/O tied. In which semi-voluntary background change can be used when time slice ends or even when processes of greater priority enter.
- In option a, It requires voluntary context switches in I /O bound.
- In option b, it requires a non-voluntary context switch for CPU bound.