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The two point charges of values +3.4 and +6.6 micro-coulombs, correspondingly, are separated through 0.20 m. Determine the potential energy of the 2-charge system?
A proton (having q = +1.6 x 10^-19C) moves 15 cm all along the direction of an electric field of strength 3.0 N/C. The electrical potential difference among the proton's initial and ending points is
A plane electromagnetic wave is traveling all along the x-axis. When the electric field of the wave consists of a maximum value of 2x10^-4 N/C and lies all along the y-axis, determine the wave's max
The position of the third-order maximum is around 6.70 cm from the center of the central maximum. i) Determine the wavelength of the light.
The allowed energies of the quantum system are 1.0 eV, 2.0 eV, 4.0 eV and 7.0 eV. Find out the wavelengths appear in the system's emission spectrum?
A hair dryer draws 1200W, a curling iron draws 800 W and the electric light fixture draws 500 W. When all three of these appliances are operating in parallel on a 120 V circuit, determine the net c
An object joined to a spring shows simple harmonic motion having amplitude of 10.0 cm. Determine how far from equilibrium will the object is when the potential energy of the system is equivalent to
The two similar charges are separated through a distance of 0.5 m. The force which the first charge applies on the second is 360 N. The magnitude of each and every charge is?
Compute the force the moon applies on you (TF). Suppose d to the moon be 3.8 multiplied by 10^8 m. Mass M of the moon is 7.4 x 10^22 kg. Employ this equation- TF = 4GMR/d^3.
(i) Determine what pulse rate does the Earth-based observer compute? (ii) Determine what would be the pulse rate when the speed of the space vehicle was raised to 0.940c?
A lens having an index of refraction of around 1.60 is to be coated having a material (n_2 = 1.38) which will make the lens non-reflecting for yellow-orange light (lambda = 515nm) normally incident
A real object's distance from the converging lens is 6 times the focal length. (i) Find out the place of the image q in terms of the focal length f.
A +26 point charge is positioned 6.1 from a similar +26 point charge. Determine how much work would be needed by an external force to move a +0.17 test charge from a point mid-way among them to a po
(i) Explain how far does the train on the left travel before the front ends of the trains pass? (ii) When the trains are each 150 m in length, determine how long after the start are they fully past
i) At what point must the satellite receiver be positioned on your satellite dish in order to detect the highest signal? ii) Sketch a picture of the incoming rays and the satellite dish.
The magnetic flux via a circuit is decreased from 35 Tm^2 to 5 Tm^2 in 0.1s. The current induced in the circuit is around 3.6 mA. Find out the resistance to the circuit.
The position of the third-order maximum is around 6.70 cm from the center of the central maximum. Determine the wavelength of the light.
There are two wires on top of one other, the wire on top is around 2 cm from the bottom wire and consists of a linear mass density of around 1.5 x 10^-3 kg/m.
When the final image distance is around 25.0 cm from the eyepiece, determine the real diameter of the red blood cell?
An electron in a TV picture-tube is accelerated from the rest via a potential difference of around 10 kV before it strikes the screen. Determine the velocity of the electron just as it strikes the
Charge a and charge b are 3m apart and charge A is +2 C and charge B is +3 C. Charge C is positioned at a point among them and the total force on charge C is zero. Determine how far from charge A i
A double concave lens encompass radii of curvature of magnitude 32.0 cm and 24.0 cm is made up of a glass for which the refractive index for red light of wavelength 700 nm is 1.44 and for violet lig
Determine the shortest height a plane mirror should be so that a person who is 1.6 meters tall is capable to see his or her whole body. Sketch a ray diagram to support your answer.
With the automobile on level ground, find out the magnitude of the force from the ground on (i) each and every front wheel (supposing equivalent forces on the front wheels) and (ii) each rear wheel
A charge having -3.42 µC is fixed in place. From the horizontal distance of 0.0581 m, a particle of mass 9.14 x 10-3 kg and charge -8.35 µC is fired with the initial speed of 56.3 m/s di