Answer:
Take a rubber kick ball and a bowling ball. What happens if you throw them both off a bridge? Despite having the same shape as the rubber ball, the bowling ball has a lot more mass and falls faster. Why? Because the bowling ball's speed, combined including its form, provides a resistive force in the direction it's traveling; because the bowling ball weighs more, the force Earth's gravity pulls on it is greater - and it takes more air resistance to reach terminal velocity than the rubber ball; and because the bowling ball weighs more, the force Earth's gravity pulls on it is greater - and it takes more air pressure to reach terminal velocity than the rubber ball.
With the same area but substantially less mass, the rubber ball requires less resistance to slow down to terminal velocity.