Final answer:
The work done in moving a 17 nc charge in an electrostatic field is calculated using the formula W = qEd, with the electric field strength and distance between points being necessary pieces of information, which are not provided in the question.
Step-by-step explanation:
The question regarding the work done in moving a 17 nc (nanocoulomb) charge from point A to point B is rooted in Physics, specifically in the study of electrostatics and work-energy principles. When discussing the work done to move a charge in an electric field, it is vital to understand two main concepts: electric force and the work-energy theorem. Unfortunately, the provided information does not give enough context to directly calculate the work performed, such as the potential difference or the distance between points A and B.
However, in a general case, if we know the electric field (E) and the distance (d) over which a charge is moved, the work (W) done can be calculated using the formula W = qEd, where q represents the charge and Ed is the change in electric potential energy. Work is commonly measured in joules (J) while the electric field is in newtons per coulomb (N/C) and distance in meters (m).