In room at 20°C, an incandescent light bulb is using 60 W of electric power. The...
Question 6 5 pts In room at 20°C, an incandescent light bulb is using 60 W of electric power. The rate of entropy generated by the light bulb is most closely equal to: 0.2 W/K 3.0 W/K 0.003 W/K 0 0.0 W/K
how much heat is produced by stationary incandescent 100.W electric light bulb that has a constant internal energy after it has been eliminated for 1.00 h?
An incandescent light bulb radiates uniformly in all directions with a total average power of 1.0 × 102 W. What is the average intensity of the light at a distance of 1.0 m from the bulb?
An individual white LED (light-emitting diode) has anefficiency of 20% and uses 1.0 W of electric power. a) How many LEDs must be combined into one light sourceto give a total of 1.6 W of visible-light output (comparableto the light output of a 40 W incandescent bulb)? b) What total power is necessary to run this LED lightsource?
Imagine that you turn on the lamp in your room that contains an incandescent light bulb and that you stand 1m from the light. Suppose further that your bulb is rated at 100 W. What is the intensity of the light that passes out through this sphere at this distance of say 1m? Now compare this to a milliwatt laser at the same distance away. How many times more/less intense is the laser beam to your eye compared to the...
The power rating of a light bulb (such as a 100-W bulb) is the power it dissipates when connected across a 120-V potential difference. A.What is the resistance of a 100 W bulb? B.How much current does the 100 W bulb draw in normal use? C.What is the resistance of a 60 W bulb? D.How much current does the 60 W bulb draw in normal use?
We can reasonably model a 120-W incandescent light-bulb as a sphere 6.5 cm in diameter. Typically, only about 6% of the energy goes to visible light; the rest goes largely to nonvisible infrared radiation. (a) What is the visible-light intensity at the surface of the bulb? W/m2 (b) What are the amplitudes of the electric and magnetic fields at this surface, for a sinusoidal wave with this intensity? Emax = V/m Bmax =
6. An incandescent light bulb operates at 100 Watts. Let's assume all the power is emitted as light (most of which will be infrared). The output peaks at a wavelength Amax 1317 nm. a. What is the temperature of the filament? b. What is the total surface area of the filament? (You can assume ε-1.)
The power rating of a light bulb (such as a 100-W bulb) is the power it dissipates when connected across a 120-V potential difference (a) What is the resistance of a 100-W bulb? (b) What is the resistance of a 120-W bulb? (c) How much current does each bulb draw in normal use? 1100-w = 1120-w-
1. Find the resistance in ohms of a light bulb that produces 60 W of power when connected to 120 V household current. (5 pts) 2. Indicate if the statements below are true or false: (a) AC currents are changing, and the voltage is constant (b) DC currents are constant, and the voltage is constant (c) The time dependence of AC current and voltage follows a “sin” wave with frequency 60 Hz (d) When several light bulbs are arranged in...