A proton circulates in a cyclotron, beginning approximately at rest at the center. Whenever it p...
A proton circulates in a cyclotron, beginning approximately at rest at the center. Whenever it passes through the gap between dees, the electric potential difference between the dees is \( 350 \mathrm{~V} \). (a) By how much does its kinetic energy increase with each passage through the gap? (b) What is its kinetic energy as it completes 100 passes through the gap? Let \( r_{100} \) be the radius of the proton's circular path as it completes those 100 passes and enters a dee, and let \( r_{101} \) be its next radius, as it enters a dee the next time. (c) By what percentage does the radius increase when it changes from \( r_{100} \) to \( r_{101} \) ? That is, what is percentage increase \( =\frac{r_{101}-r_{100}}{r_{100}} 100 \% ? \) 📲PW App Link - https://bit.ly/YTAI_PWAP 🌐PW Website - https://www.pw.live
A proton circulates in a cyclotron, beginning approximately at rest at the center. Whenever it passes through the gap between dees, the electric potential difference between the dees is \( 350 \mathrm{~V} \). (a) By how much does its kinetic energy increase with each passage through the gap? (b) What is its kinetic energy as it completes 100 passes through the gap? Let \( r_{100} \) be the radius of the proton's circular path as it completes those 100 passes and enters a dee, and let \( r_{101} \) be its next radius, as it enters a dee the next time. (c) By what percentage does the radius increase when it changes from \( r_{100} \) to \( r_{101} \) ? That is, what is percentage increase \( =\frac{r_{101}-r_{100}}{r_{100}} 100 \% ? \) 📲PW App Link - https://bit.ly/YTAI_PWAP 🌐PW Website - https://www.pw.live