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(part A)What will be the maximum electric field in this filament? (part B) What will be...
Chapter 25 Homework Exercise 25.15-Enhanced - with Solution 7 of 19 What will be the maximum electric field in this filament? Constants Express your answer using two significant figures. A cylindrical tungsten filament 17.0 cm long with a diameter of 1.00 mm is to be used in a machine for which the temperature will range fr temperature (20 °C) up to 120 ° C. It will carry a current of 14.0 A at all temperatures (Resistivity of tungsten at 20...
A cylindrical tungsten filament 13.0 cm long with a diameter of 1.00 mm is to be used in a machine for which the temperature will range from room temperature (20 ∘C) up to 120 ∘C. It will carry a current of 12.5 A at all temperatures ( Resistivity of tungsten at 20 ∘C is 5.25×10−8Ω⋅m , the temperature coefficient of resistivity at 20 ∘C is 0.0045 ∘C−1 ) What will be the maximum electric field in this filament? What will...
A cylindrical tungsten filament 14.0 cm long with a diameter of 1.10 mm is to be used in a machine for which the temperature will range from room temperature (20 ∘C) up to 120 ∘C. It will carry a current of 12.5 A at all temperatures ( Resistivity of tungsten at 20 ∘C is 5.25×10−8Ω⋅m , the temperature coefficient of resistivity at 20 ∘C is 0.0045 ∘C−1 ) Part A What will be the maximum electric field in this filament?...
A cylindrical tungsten filament 15.0 cm long with a diameter of 1.10 mm is to be used in a machine for which the temperature will range from room temperature (20 ∘C) up to 120 ∘C. It will carry a current of 13.5 A at all temperatures ( Resistivity of tungsten at 20 ∘C is 5.25×10−8Ω⋅m , the temperature coefficient of resistivity at 20 ∘Cis 0.0045 ∘C−1 ) Part B What will be its resistance with that field? Express your answer...
Review Con: Part A An incandescent light bulb uses a coiled filament of tungsten that is 580 mm long with a diameter of 46.0 um. At 20.0°C tungsten has a resistivity of 5.25 x 1012.m. Its temperature coefficient of resistivity is 0.0045 (Cº) , and this remains accurate even at high temperatures. The temperature of the filament increases linearly with current, from 20°C when no current flows to 2520°C at 1.00 A of current What is the resistance of the...
Please give step by step solution so I can understand and follow along. I will rate, thank you. 3. A tungsten light bulb filament (see the figure at the right) is a coil of a coil to reduce evaporative losses (the light bulb itself contains an inert gas to also reduce evaporative losses and to also reduce the operating temperature of the filament. The inert gas is usually argon). The uncoiled diameter of the filament is 47 μm and the...
tem 10 Review Part What is the magnitude of the electric field E(r) at a distancer >T, from the center of the ball? Express your answer in terms of p, rb, r, and Eo A solid ball of radius rb has a uniform charge density ρ View Available Hint(s) E(r) - Submit ▼ Part B What is the magnitude of the electric field E(r) at a distance r < Tb from the center of the ball? Express your answer in...
Part A and B please 2. (18.8.51) (a) What is the electric field 5.00 m from the center of the terminal of a Van de Graaf with a 3.00 mC charge? Note that the field is equivalent to that of a point charge at the center of the terminal. (b) At this distance, what force does the field exert on a 2.00 C charge on the Van de Graaf's belt?
What is the answer and formula to find Part B? <HW 1: Electric Charges and Fields Exercise 21.2 Part A How much charge flows between the ground and the cloud in this time? Express your answer using three significant figures Constants Lightning occurs when there is a flow of electric charge (principally e and a thundercloud. The maximum rate of charge flow in a lightning bolt is about 20,000 C/s; this lasts for 100 us or less. s) between the...
7. a) A Si p-n junction has dopant concentrations Na = 2 x 1016/cm3 and Nd=1x1015/cm3 at T=300 K. Calculate (a) Vo, (b) W at VR=0 and VR=2 V and (c) the maximum electric field in the space charge region at VR=0 and VR=4 V. b) For the junction in part a, how much would the temperature need to increase to have V0 decrease by 1%?