Please Answer Question and show work
Please Answer Question and show work 5. Two balloons in the picture below have been charged...
Two charged balloons are hanging from the ceiling in your bedroom (assume the balloons to be point particles with the same charge Q). Assume Q to be the electric charge of each balloon, m to be the mass of each individual balloon, θ the angle from the vertical, and d the distance separation between balloons b write an expression for the net electric charge on each balloon. Express your answers in terms of m, θ, d, and , fundamental constants....
Two balloons each have mass 4.0x10 kg. Balloon 1 has a negative net charge. Balloon 2 has twice the net negative charge of balloon 1. Balloon 1 is taped to the wall, and balloon 2 is tied to a string of length 0.70 m, which is attached to the ceiling directly above balloon 1 as shown. In the final equilibrium situation, the string makes a 20 degree angle away from balloon 1, and the two balloons are at the same...
Please show all work and steps!
5. A tiny charged ball of mass m and charge -q is suspended by a massless string from the ceiling in a region of uniform horizontal electric field E. When it is in equilibrium, the string makes an angle 0 with the vertical. What is the magnitude of E in terms of the other variables (and known constants), and its direction AU Physics PHYS 1600/1610 CC-BY-SA Kolarkar
Please show the correct
answer for it. I have tried it not 0C and -3.89e-6 C and
3.89e-6C.
4. +1 points My Notes Ask Your Teacher The two spheres in the figure are charged. Each has a mass of 0.57 kg. The lower mass is rigidly attached to the floor, with a charge of 9.6 x 103 C. The mass above it is held to the ceiling with a string, whose tension is 5.7 N. The masses are 5.8 m...
Please see attached question/parts. Please show all work
& double check units to answer for what the question is asking
exactly. Please show all work. Thank you!
(Below the question is a zoomed in picture for clearer view
& tips to complete part a)
Part a tips: (2 pictures)
Part b zoomed in:
3a) 3b) A uniform sheet of charge lies on a horizontal surface. A point charge of -8 micro-coulombs is located 0.2 meters below the sheet. At a...
Please Help:
Question 1: You measured the force between two charged pith
balls where the pith balls were of the same size and mass. Your
assumption was that the charge on the balls was the same.
Consider this change to that situation. Instead of identical
pith balls, one has twice the charge of the other. Both pith balls
hang from strings of length L. Assume the masses are the same and
both pith balls hang at the same angle. Derive...
Due: Online via Canvas on Tue., Jan. 15 before 11 a.m. Two small, identically charged, Styrofoam spheres are hung from the ceiling using strings, and reach equilibrium as shown in Figure 1, below. Each sphere has a mass of 0.0300kg and an unknown positive charge +0, so they repel each other due to the electric force. The tension in the string is an unknown, 1. length of each string is 0.150m. The angle of each string, relative to vertical, is...
The answer chosen is INCORRECT
Two identical charged metal spheres (same charge q and mass), have the same density ρ and are suspended from an insulating string, repelling at an angle θ from the vertical. Now the balls are submerged in a liquid of density σ and the angle between them does not change. The new Coulomb force between the two charges because of the liquid in between is computed as 1/(4.π.ε) q2/(2.Lsin(9))2 where ε-eo-Ed Find ed of (the so-called...
Please see question & diagram below. Please double check
all work and units/unit conversions. Show all work. Thank
you!
A negative charge with a mass of 0.4 kg is placed on a string which is placed between a capacitor which is orientated vertically as shown. The charge swings to an angle of 12.8 degrees with the vertical before coming to equilibrium. Then, a positive charge with a magnitude twice as large as the first charge replaces the charge on the...
Please answer all parts of the
Question.
Read each question carefully. Show all your work for each part of the question. The parts within the question may not have equal weight. A block of mass m is placed on an inclined plane that makes an angle with the horizontal, as shown in the figure. The coefficients of static and kinetic friction between the block and the surface are , and , respectively. Express your answers in parts (b) and (c)...