2) A proton, initially moving at 6.00x105 m/s, goes through a potential difference of +1000.0 V...
A proton is moving through a uniform potential difference of 300 V. If the proton enters the potential with a velocity of 1.80 * 10^5 m/s x, determine the velocity of the proton the moment it leaves the potential difference. a) 2.40 * 10^5 m/s x b) 3.00 * 10^5 m/s x c) 8.99 *10^1 m/s x d) There is not enough information to solve this problem.
Calculate the speed of an proton moving through a potential difference of 5.0 V. Repeat for an electron
A proton is accelerated initially by applying a potential
difference of 10 V in a small area. After the electron leaves the
potential difference with a speed v0, it travels between
two charged plates with distance of 0.6 cm between them. The plates
have a potential difference of ∆V = 50 V across them, with the top
plate being high potential. Inside the plates the proton is
deflected by amount ∆y.
a) What is the initial speed v0 of the...
A proton is moving at 105 m/s at a point where the potential is 10 V. Later, it is at a place where the potential is 5 V. What is its speed there, assuming energy is conserved? 105 m/s Its speed will depend on how it got to the new place. Less than 105 m/s More than 105 m/s
A)A proton is accelerated from rest through a potential difference of 25707 V. What is the kinetic energy of this proton after this acceleration? The mass of a proton is 1.673 × 10−27 kg and the elemental charge is 1.602 × 10−19 C. Answer in units of J. B) What is the speed of the proton after this acceleration? Answer in units of m/s.
A proton is moving at a speed of 1.5 x 10^5 m/s when it travels through a potential difference and accelerates uniformly to a speed of 4.5 x 10^6 m/s. What was the value of the potential difference through which the proton traveled. If the distance the proton traveled was 50 cm, what was the magnitude of the electric field?
(a) Find the clectric potential difference av.cquired to stop an clectron (called a "stopping potential') moving with an initial speed of 1.74 x 10 m/s. 8619 X KV (0) Find a symbolic expression for the ratio of the proton stopping potential and the electron stopping potential, AJAVE 183.8.16 = (a) Find the clectric potential difference av.cquired to stop an clectron (called a "stopping potential') moving with an initial speed of 1.74 x 10 m/s. 8619 X KV (0) Find a...
Please solve using algebra only
2.) A proton moving initially at speed v-200 m/s enters a region of constant magnetic fickd B 0.4T pointing out of the page as shown in the figure. a) Describe and draw in the figure its subsequent path as it moves i b) Co figure its direction at various points along its path. e) Where would you place a uniformly charged plate in this region so that the proton will maintain a straight path with...
1. A proton has an initial speed of 5.0×105 m/s . a.) What potential difference is required to bring the proton to rest? (in V) b.)What potential difference is required to reduce the initial speed of the proton by a factor of 2? c.)What potential difference is required to reduce the initial kinetic energy of the proton by a factor of 2?
A proton has an initial speed of 4.5×105 m/s . A) What potential difference is required to bring the proton to rest? Units in V B) What potential difference is required to reduce the initial speed of the proton by a factor of 2? C) What potential difference is required to reduce the initial kinetic energy of the proton by a factor of 2?