Q3(a)Explain the function of a capacitorand resistorin an electronic device.You may choose a device which has both electrical components, or separate devices for each component.
Q3(a)Explain the function of a capacitorand resistorin an electronic device.You may choose a device which has...
Q3() Explain the function of a capacitor and resistor in an electronic device. You may choose a device which has both electrical components, or separate devices for each component. (5 marks) (b) 632.8 nm is incident on a Monochromatic light from a helium-neon laser of 2. diffraction grating containing 6000 lines/em. Analyse the number of bright fringes that can be observed. (2 marks) Calculate the angle for each bright fringe that occur. (3 marks)
Explain the function of a capacitor and resistor in an electronic device. You may choose a device which has both electrical components, or separate devices for each component. (5 marks) (b) Monochromatic light from a helium-neon laser of λ = 632.8 nm is incident on a diffraction grating containing 6000 lines/cm. (i) Analyse the number of bright fringes that can be observed. (2 marks) (ii) Calculate the angle for each bright fringe that occur.
I need solution as soon as possible Q3(a) Explain the function of a capacitor and resistor in an electronic device. You may choose a device which has both electrical components, or separate devices for each component (5 marks) (b) Monochromatic light from a helium-neon laser of 2. = 632.8 nm is incident on a diffraction grating containing 6000 lines/cm. (1) Analyse the number of bright fringes that can be observed. (2 marks) Calculate the angle for each bright fringe that...
The inner workings of most electronic devices for diagnostic imaging are temperature-sensitive, in that they will not function properly if safe operating temperature is exceeded. However, these devices also include internal components that emit considerable heat within the device. Provide TWO specific strategies that an equipment designer could employ to reduce heating of the temperature-sensitive components in an electronic device, explain how physics concepts are applied in each strategy.
A. As an electronic device, what is the function or purpose of a bipolar junction transistor when it is utilized in an analog circuit? B. Make a sketch of a typical volume element of a silicon pnp transistor connected in active larger than the base current. In your sketch, show the path of carriers (both holes and electrons) as they proceed from the emitter to the collector. Identify the paths of all 3 types of base current and explain what...
Name an electronic device and list prototypes of some function it may use. Example: iPhone bool checkPinCode(int pin); // Return true if pin is correct void shutdown();
An electrical device has two components, A and B. Each component can be "good" or can be in a "shorted" or "open-mode" failure state. Let's assume that component A has probability .6 or being good and probability .2 of being in each of the failure states, and that component B has probability .7 of being good, .2 of "open" failure, and .1 for "shorted" failure. Furthermore, we assume the two components function independently. Current can pass through a device if...
Please show all steps. The lifetime of an electronic device has a normal distribution with standard deviation 1.5 years. A random sample of 400 devices was drawn yielding the sample lifetime average of 6 years. a) Compute a 95% confidence interval for the mean lifetime of the electronic devices.
The time to failure of a component in an electronic device has an exponential distribution with a mean of 7 hours. Calculate the median time to failure. Round answer to 3 decimal places
1. A firm called SoderWerks is a monopolist in the production of a sophisticated electronic device used in the construction of military tanks. It faces monthly market demand that varies according to the equation Q = 510 - 0.1P, where P is the price per device in dollars. The firm earns marginal revenue according to the equation MR = 5100 - 200 and incurs marginal costs according to the function MC = 1800 + 2Q, where Q is the quantity...