Then he looked back at his Gizmo. He dragged the slider for “Left solute concentration” from 50 to 80 molecules. The pressure gauge on the left side of the virtual beaker began to climb. The blue water dots rushed across the membrane so frantically it looked like a river.
The answer key was right. But Leo hadn’t learned why until he saw the frantic water molecules. It wasn’t about “wanting to dilute.” It was about probability. More water molecules on the right meant more chances to bounce through the membrane to the left, where water was rarer. It was a numbers game.
He wrote: The outside has less water and more salt. Water leaves the vacuole. The cell membrane peels away from the cell wall. The plant wilts. Student Exploration Osmosis Gizmo Answer Key Pdf
His fingers hovered over the trackpad. Just a peek. Question 3: If you were to increase the solute concentration on the left side, what would happen to the net movement of water?
He watched as tiny blue dots (water) began to shimmy across the membrane toward the left side. The green glucose dots, true to the rules, just bounced off the membrane like confused bees against a window. They were too large to pass. Then he looked back at his Gizmo
“Okay,” Leo muttered, clicking the “Start” button on the Student Exploration: Osmosis simulation. “Time to see who moves where.”
The screen glowed a sterile blue in the dim light of Leo’s bedroom. On it was the Gizmo—a virtual beaker divided down the middle by a semi-permeable membrane. On the left side, he had loaded a solution of 50 glucose molecules and 50 water molecules. On the right, just 100 water molecules. The blue water dots rushed across the membrane
He closed the answer key PDF. The temptation faded, replaced by a quiet satisfaction. He typed his own answer to Question 5: Explain how a plant cell in a hypertonic solution loses turgor pressure.