<p>@infamous911 thats what i said. what about the very first section? like which quantity was greater, the first column or second column. i got the second for the first question then the same for the other two.</p>
<p>ya i got that</p>
<p>@Infamous911</p>
<p>That is correct</p>
<p>Resistivity = Intric Resistance of the material x the Cross sectional area / by its length</p>
<p>What’s the answer to all of these are fractals instead…??</p>
<p>What was the answer to that fractals question ?</p>
<p>Shouldn’t currents be the same because they are in series?</p>
<p>I thought the currents were different even though they were in series because of the thickness/lengths of the wires. More current should be able to flow in the wires with bigger areas.</p>
<p>that would violate the conservation of charge (and kirchoff’s first law) though…</p>
<p>So you’re saying that they have the same current and resistance and voltage then? I’m really not sure on this one</p>
<p>They have the same currents, but different resistances. At least that’s what I said.</p>
<p>Resistors in series with different rsistances have different voltage drops, but the same current. </p>
<p>Resistors in parallel have the same voltage drop, but different current.</p>
<p>How about the question about spring on simple harmonic motion? I know the equilibrium position moves down, but does the frequency increase or decrease? I said it increased. And staying the same wasn’t an option (this is all given the mass of the original system is increased)</p>
<p>I think the frequency decreased because wasn’t the amplitude increased or something? So it had the same equilibrium position but it takes longer for it to bounce up and down than before, which means decreased frequency. That’s what I thought.</p>
<p>@slushy</p>
<p>[Fractals</a> in Nature - An Introduction to Organized Chaos!](<a href=“http://davesgarden.com/guides/articles/view/1939/]Fractals”>http://davesgarden.com/guides/articles/view/1939/)</p>
<p>“Well, an exploration of the graphics that result from the computation of the Mandelbrot Set yields an infinity of wonderfully beautiful images, some of which are startling in their similarity to natural patterns and objects such as insects and plants. In the insect fractal image below, right, you can see the head, thorax and abdomen quite clearly, and the resemblance to a wasp, bee or ant body is uncanny.”</p>
<p>EV/M… what did y’all get for that?</p>
<ol>
<li>How about the Rutherford gold foil one?</li>
<li>The double slit diffraction one (I think it talked about waves) with A and B and point P wasthe answer was the one with the fraction in it? Because I thought you needed nodes to make it fully interfere or whatever so like double slit diffraction it would be the fraction one.</li>
<li>What was the answer the the capacitor one where we needed to find out something that involved the area and distance between parallel plates?</li>
<li>Ft=50N for one of them I think</li>
<li>One of the answers was mirror + converging lens right?</li>
</ol>
<p>What’s EV/M?</p>
<p>The Rutherford experiment showed that the nucleus of an atom is extremely small compared to the overall size of the atom. What about the question about the acceleration and force between the sun and the earth?</p>
<p>both feel same fg, but earth accelerates more due to fg than the sun</p>
<p>@fireonice
yes it was the one with the 1/2</p>