Two balloons are equally charged and suspended from a common point. the electrostatic repulsion between the balloons causes them to separate a distance of 40 cm and make an angle of 30 degrees with the vertical as shown. Assuming that the balloons can be treated as point charges, what is the charge on each balloon? Each balloon has a mass of 4 g.
Two balloons are equally charged and suspended from a common point. the electrostatic repulsion between the...
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....
Please Answer Question and show work 5. Two balloons in the picture below have been charged and each is tilted the same angle away from vertical. Assuming they both have the same mass and charge product of the charges on them. The quantities that you can measure and use in the expression are the separation between the balloons, the masses, and the vertical distance from the balloons to the ceiling. , find the expression for the Notes: You should make...
0 Balloon mass m d Two balloons are hanging as shown in the figure. The angle q=20.0000 degrees. The distance between the balloons d-1.0000m. The mass of each balloon is m=0.0005kg. Find the magnitude of charge on each balloon (assuming the same amount of charge) Give your answer in MicroCoulombs.
e Balloon mass m d WA Two balloons are hanging as shown in the figure. The angle 0 - 20.0000 degrees. The distance between the balloons d=0.6000m. The mass of each balloon is m-0.0005kg. Find the magnitude of charge on each balloon (assuming the same amount of charge) Give your answer in MicroCoulombs.
0 Balloon mass m d Two balloons are hanging as shown in the figure. The angle q- 15.0000 degrees. The distance between the balloons d-0.6000m. The mass of each balloon is m-0.0005kg. Find the magnitude of charge on each balloon (assuming the same amount of charge) Give your answer in MicroCoulombs. Your Answer:
Two balloons filled with air are each tied to very light 0.5-m-long strings. The loose ends of the strings are taped to the same position on a horizontal bar. When both are equally rubbed with the same material they both develop a static charge and repel each other making an angle of 30º with respect to the vertical. Note: the mass of a rubber balloon is not given! If you find/assume a mass, cite a source! (a) With this experiment...
Two balloons filled with air are each tied to very light 0.5-m-long strings. The loose ends of the strings are taped to the same position on a horizon tal bar. When both are equally rubbed with the same material they both develop a static charge and repel each other making an angle of 30° with respect to 2. the vertical. )With this experiment alone can you tell what type of charge is on the bal- loon? Explain. (b) Is this...
0%charge 4. Two charged pith balls are suspended on very light 120 cm strings. Each has a mass of 10.0 g. Assume the angle the threads make from the vertical is 10 and that the balls are in equilibrium. Draw a free-body diagram for one of the pith balls and clearly label all forces with magnitude and direction. Assuming the pith balls are equally charged, what is the charge on each ball? (This is not a qualitative prediction; a numerical...
Two point charges of equal mass m, charge Q are suspended at a common point by two threads of negligible mass and length E. Show that at equilibrium the inclination angle ? of each thread to the vertical is given by If ? is very small, show that
The relationship between the electric force F (e) and the gravitational force F (g) (or 1. weight) between two electrons. Two equal and equally charged spheres of 0.1 g of mass each are suspended from the same point by threads of 13 cm in length. Due to the repulsion between both, the spheres are separated 10 cm as seen in the graphic representation. Find the load of 2. each of them. Calculate the number of electrons that add an electric...