rlm@0: Photoreceptors in the retina (such as cones) have special channels that are open to Na+ in the dark. When light hits photoreceptors, these special channels close. What can you conclude from this? rlm@0: a) Photoreceptors depolarize to light. rlm@0: b) Photoreceptors hyperpolarize to light. rlm@0: c) Photoreceptor voltage does not change in the presence of light. rlm@0: d) None of the above rlm@0: rlm@0: rlm@0: What happens in a photoreceptor cell (a rod, for example) in response to a light stimulus? rlm@0: a) rod membrane depolarizes because Na+ channels open as a result of a decrease in second messenger cGMP rlm@0: b) rod membrane hyperpolarizes because K+ channels open as a result of a decrease in second messenger cGMP rlm@0: c) rod membrane hyperpolarizes because Na+ channels close as a result of a decrease in second messenger cGMP rlm@0: d) rod membrane depolarize because K+ channels close as a result of a increase in second messenger cGMP rlm@0: rlm@0: rlm@0: A difference between rods and cones is: rlm@0: a) Rods hyperpolarize to light, while cones depolarize to light rlm@0: b) Rods are much larger than Cones, and more numerous. rlm@0: c) Cones and rods use different types of opsins rlm@0: d) The total volume of all Cones is smaller than that of Rods rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: To approximate an ideal OpAmp, all OpAmps should: rlm@0: rlm@0: a) have almost infinite positive open loop gain rlm@0: b) have almost infinite negative open loop gain rlm@0: c) have almost infinite positive output drift rlm@0: d) have almost infinite negative output drift rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: Normal OpAmps all approximate an ideal OpAmp. An Ideal OpAmp: rlm@0: rlm@0: I Has infinite positive open loop gain rlm@0: II Has zero open loop gain rlm@0: III Is an IC rlm@0: IV Has zero output drift rlm@0: V Has output drift of -1 rlm@0: rlm@0: rlm@0: a) I,III,V rlm@0: b) II,III,V rlm@0: c) II,V rlm@0: d) I,IV rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: A difference between the 741 OpAmp and the K2-W OpAmp is: rlm@0: rlm@0: a) the 741 has a large negative open loop gain while the K2-W has a large positive open loop gain rlm@0: b) the 741 is an IC while the K2-W is not rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: rlm@0: I