ysics 2212 GPS 2 Problem As far back as the 4th century B.C., Aristotle marveled at the gecko's ability to "run up and down a tree in any way." The secret to this remarkable feat isn't a sticky substance, but physics at a microscopic level. A gecko's toes are covered in millions of tiny hairs called setae, which create a powerful molecular attraction known as the Van der Waals force. This collective force is strong enough to let them effortlessly scale walls and even cling to surfaces upside down. To model this force, consider a simplified scenario: a single molecular dipole within a gecko's seta represented as a permanent dipole with dipole moment |p |g. This dipole is located a distance d from a neutral atom on the tree's surface, where the atom exhibits a polarizability as represented in the bottom half of the diagram. A. Determine the magnitude and direction of the induced dipole moment in the neutral atom