Methods and apparatus for hygromorphic shape control

What is claimed is: 1. A method comprising applying hygromorphic material to a first side of an object, in such a manner that: (a) the amount of the hygromorphic material that adheres to the first side varies substantially from region to region of the first side; (b) the hygromorphic material adheres in a first spatial distribution on the first side of the object, which first spatial distribution is the amount of hygromorphic material adhering to the first side as a function of spatial position; and (c) the hygromorphology of the object, after the applying (i) depends at least in part on the first spatial distribution, and (ii) includes changing from a state in which the shape of the object does not include a sharply angled bend to a state in which the shape of the object includes a sharply angled bend. 2. The method of claim 1 , wherein the hygromorphic material comprises a hydrogel. 3. The method of claim 1 , wherein the hygromorphic material comprises a bacterial cell. 4. The method of claim 1 , wherein the method further comprises adjusting relative humidity ambient to the object, and thus causing a change in shape of the object. 5. The method of claim 4 , wherein the adjusting of relative humidity comprises increasing moisture content at some times and decreasing moisture content at other times, wherein: (a) the increasing comprises increasing relative humidity of air ambient to the first side; and (b) the decreasing comprises evaporation caused by resistive electrical heating. 6. The method of claim 5 , wherein the resistive electrical heating occurs in conductive material that is part of the object. 7. The method of claim 1 , wherein: (a) the method further comprises applying hygromorphic material to a second side of the object, which side is different than the first side, in such a manner that the amount of hygromorphic material that adheres to the second side varies substantially from region to region of the second side; (b) the hygromorphic material adheres in a second spatial distribution on the second side of the object, which second spatial distribution is the amount of hygromorphic material adhering to the second side as a function of spatial position; and (c) the hygromorphology of the object, after the applying to the second side, depends at least in part on the second spatial distribution. 8. A method comprising: (a) applying hygromorphic material to a first side of an object, in such a manner that the amount of the hygromorphic material that adheres to the first side varies substantially from region to region of the first side; and (b) applying hygromorphic material to a second side of an object, in such a manner that the amount of the hygromorphic material that adheres to the second side varies substantially from region to region of the second side; and (c) bending of the object in response to a change in relative humidity, which bending includes changing from a state in which the shape of the object does not include a sharply angled bend to a state in which the shape of the object includes a sharply angled bend; wherein the first and second sides are different from each other. 9. The method of claim 8 , wherein the bending occurs when the object is simultaneously exposed to a first relative humidity on the first side and to a second relative humidity on the second side, the first and second relative humidities being different from each other.