a. the allyl radical's three T orbitals b the cyclopropenly radical's three T orbitals. Do you see that the algebra needed to find the above sets of orbitals is exactly the same was needed when we treat the linear and triangular sodium trimer? 6. You should be able to follow the derivation of the tunneling probability. Doing this offers a good test of your ability to apply the boundary conditions properly, so I suggest you do this task. You should appreciate how the tunneling probability decays exponentially with the"thickness" of the tunneling barrier and with the"height of this3 a. the allyl radical’s three p orbitals b. the cyclopropenly radical’s three p orbitals. Do you see that the algebra needed to find the above sets of orbitals is exactly the same as was needed when we treat the linear and triangular sodium trimer? 6. You should be able to follow the derivation of the tunneling probability. Doing this offers a good test of your ability to apply the boundary conditions properly, so I suggest you do this task. You should appreciate how the tunneling probability decays exponentially with the “thickness” of the tunneling barrier and with the “height” of this