Final answer:
Without specific details from Example 14.3 or Example 11.6, it is not possible to determine the transmitted pressure in the hydraulic system in atmospheres.
Step-by-step explanation:
The question relates to Pascal's Principle and the transmission of pressure within a hydraulic system. However, without the specific details of Example 14.3 or Example 11.6, which are referenced in the question, it is not possible to accurately determine the transmitted pressure in atmospheres.
In general, Pascal's Principle implies that a change in pressure at any point in a confined incompressible fluid is transmitted undiminished throughout the fluid, which means whatever input pressure is applied gets transmitted throughout the system.
To calculate this in atmospheres, we would typically take the pressure in pascals and divide by the standard atmospheric pressure, which is approximately 101,325 pascals per atmosphere (atm).Therefore, the pressure transmitted in the hydraulic system is the same throughout. In this example, the pressure is not given, so we cannot determine the exact value. None of the provided answer choices (a) 759 atm, (b) 1.45 atm, (c) 0.657 atm, or (d) 12.5 atm can be considered correct.