Find how close does the moving proton get to fixed proton

Assignment Help Physics

Reference no: EM13708592

Problem: A proton with kinetic energy K=0.5eV is moving toward the right and parallel to the x-axis. The proton is initially a long distance to the left of the origin and at y=2.05 nm above the x-axis.

Part A: If there is fixed proton at the origin, how close does the moving proton get to the fixed proton?

Please explain how you got the numbers and calculations. Thanks.

Reference no: EM13708592

Questions Cloud

Which car wins the race, and by how many seconds : In a quarter-mile drag race, two cars start simultaneously from rest, and each accelerates at a constant rate until it either reaches its maximum speed or crosses the finish line. Which car wins the race, and by how many seconds

What was the takeoff speed : An athlete performing a long jump leaves the ground at a 33.2 degree angle and lands 7.82m away. What was the takeoff speed

Estimate the magnitude of the frictional force : In an exciting game, a baseball player manages to safely slide into second base. Find the magnitude of the frictional force

How does the answer depend on the shape of the hill surface : A ball is rolling up a hill with a smooth surface. Initial kinetic energy of the ball is equal to its potential energy on the top of the hill. How does the answer depend on the shape of the hill surface

Find how close does the moving proton get to fixed proton : A proton with kinetic energy K=0.5eV is moving toward the right and parallel to the x-axis. how close does the moving proton get to the fixed proton

Calculate what the maximum height above the roof : A man stands on the roof of a 19.0m -tall building and throws a rock with a velocity of magnitude 24.0m/s at an angle of 38.0 degree above the horizontal. Calculate the maximum height above the roof

What must its velocity be : A proton is shot perpendicularly at an infinite plane of charge. What must its velocity be so that it screeches to a halt exactly as it reaches the plane

What is the strength of the electric field : An infinite rod has a charge density of 5.00 nC/m. What is the strength of the electric field at a distance of 3.50 m from the rod

What is the linear density of the charge on the flagpole : A very tall flagpole, temporarily charged uniformly by lightning, generates an outward-directed electric field of strength 1.80×108 N/C at a distance of 11.0 cm from the middle of the pole. What is the linear density of the charge on the flagpole

User Account

All Pages