A solid sphere, a spherical shell, a disc and a ring of the same radius are allowed to roll down an inclined plane simultaneously from the same height without slipping. Of these the one which reaches the bottom last is
1) solid sphere
2) spherical shell
3) disc
4) ring
Choose the correct answer.
Also give a reason if you want.
Let's see who gets it.
implying that the ring and specially the disc will keep rotating in balance and they wont fall to a side?
Quote from: Iridion on April 23, 2014, 07:37:23 AM
implying that the ring and specially the disc will keep rotating in balance and they wont fall to a side?
you have to figure it out from the question
i think disc
B, the hollow sphere, as it has the lowest mass to surface area ratio (surface area in the plane perpendicular to the direction of motion) compared to the others, meaning air resistance affects it more (assuming there is air) and it has a lower terminal velocity too. However, you cannot actually work it out properly unless you know the thickness of the ring/disk, and the mass of all of the objects. I just made up values for masses and SA that seemed reasonable.
Quote from: CyberSox on April 23, 2014, 10:14:14 AM
B, the hollow sphere, as it has the lowest mass to surface area ratio (surface area in the plane perpendicular to the direction of motion) compared to the others, meaning air resistance affects it more (assuming there is air) and it has a lower terminal velocity too. However, you cannot actually work it out properly unless you know the thickness of the ring/disk, and the mass of all of the objects. I just made up values for masses and SA that seemed reasonable.
googled
Quote from: zomniethe4 on April 23, 2014, 05:51:46 PM
Quote from: CyberSox on April 23, 2014, 10:14:14 AM
B, the hollow sphere, as it has the lowest mass to surface area ratio (surface area in the plane perpendicular to the direction of motion) compared to the others, meaning air resistance affects it more (assuming there is air) and it has a lower terminal velocity too. However, you cannot actually work it out properly unless you know the thickness of the ring/disk, and the mass of all of the objects. I just made up values for masses and SA that seemed reasonable.
googled
nope..
https://answers.yahoo.com/question/index?qid=20101013115811AAzMmEs
science :o
They are "allowed" to roll down the plane. Doesn't mean that they are rolling down the plane;). Just like saying "I'm allowed to get out of bed" but i'm not going to >:C.
Answer:answer 5) None of the above.
here come modern day physicists who are experts in search google