Physics, 22.03.2021 20:30 lauren21bunch
When a particle is a distance r from the origin, its potential energy function is given by the equation U(r)=kr, where k is a constant and r=x2+y2+z2βββββββββββ
(a) What are the SI units of k?
Part B (b) Find a mathematical expression in terms of x, y, and z for the y component of the force on the particle.
Part C (c) If U=3.00 J when the particle is 2.00 m from the origin, find the numerical value of the y component of the force on this particle when it is at the point (-1.00 m, 2.00 m, 3.00 m).
Answers: 1
Another question on Physics
Physics, 22.06.2019 05:00
At time t=0, a particle is located at the point (3,6,9). it travels in a straight line to the point (5,2,7), has speed 8 at (3,6,9) and constant acceleration 2iβ4jβ2k. find an equation for the position vector of the particle.
Answers: 2
Physics, 22.06.2019 09:30
(**i would really appreciate if this was answered soon** ) which pair of quantities includes one quantity that increases as the other decreases during simple harmonic motion?
Answers: 3
Physics, 22.06.2019 10:00
There are two-speed cameras, one in an are where the speed limit is 30 km/h and another where the speed limit is 50 km/h. in which will there be a smaller time interval between the photographs? explain your answer.
Answers: 1
You know the right answer?
When a particle is a distance r from the origin, its potential energy function is given by the equat...
Questions
Mathematics, 25.02.2021 07:50
Social Studies, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
History, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
Mathematics, 25.02.2021 07:50
