Question A series AC circuit contains a resistor, an inductor of 250 mH, a capacitor of 4.90 µF, and a source with ΔVmax = 240 V operating at 50.0 Hz. The maximum current in the circuit is 150 mA. (a) Calculate the inductive reactance. Ω (b) Calculate the capacitive reactance. Ω (c) Calculate the impedance. kΩ (d) Calculate the resistance in the circuit. kΩ (e)

2. B) A 600-kg car traveling at 24.5 m/s is going around a curve having a radius of 120 m that is banked at an angle of 20.0 degrees. Is the curve properly banked for the car's speed? Explain. A yes or no answer is not enough. Show your work to support your answer. 2.88 M - Goo МА .600 x 987 MS = 600 X 24,5 2. B) A 600-kg car traveling at 24.5 m/s is going around a curve having a radius of 120 m that is banked at an angle of 20.0 degrees. Is the curve properly banked for the car's speed? Explain. A yes or no answer is not enough. Show your work to support your answer. 2.88 M - Goo МА .600 x 987 MS = 600 X 24,5

A soap film(n = 1.33) in air is 320 nm thick. If it is illuminated with white light at normal incidence, what colour will it appear to be in reflected light? A soap film(n = 1.33) in air is 320 nm thick. If it is illuminated with white light at normal incidence, what colour will it appear to be in reflected light?

​​​​​​​ EXERCISE - INDIVIDUAL: Convert from big- to little-endian in MIPS n the files for this lab, you have been given mips_networking.s, a MIPS assembler program that reads one number and chen prints it. Add code to mips_networking.s to make it equivalent to this C program: // Reads a 4-byte value and reverses the byte order, then prints it \#define BYTE_MASK QxFF int main(void) \{ int32_t network_bytes; scanf("\%d", \&network_bytes); int32_t computer_bytes \( =0 \); uint32_t byte_mask = BYTE_MASK; computer_bytes \( \mid= \) (network_bytes \& byte_mask) \( \ll 24 \); computer_bytes \( \mid= \) (network_bytes \& (byte_mask \( \ll 8 \) ) ) \( \ll 8 \); computer_bytes \( \mid= \) (network_bytes \& (byte_mask \( \langle<16)) \gg> \); computer_bytes \( \mid= \) (network_bytes \& (byte_mask \( \langle\langle 24) \) ) \( >>24 \); printf("\%d", computer_bytes); return 0 ; \} n other words, it should read one number, network_bytes, reverse the byte order inside it, and print the result. The MIPS documentation guide provides a set of bitwise operations that will be useful for this. For example: \( \$ 1092 \) mipsy mips_networking.s 5 83886080 \( \$ 1092 \) mipsy mips_networking.s 255 \( -16777216 \) \( \$ 1092 \) mipsy mips_networking.s \( -1 \) \( -1 \) \( \$ 1092 \) mipsy mips_networking.s 2147483647 \( -129 \)

A distant star emits maximum intensity for wavelength 850 nm. What is its radiant intensity? a) 1.9 x10 4 W/m2 b) 7.7 x 10 6 W/m2 c) 7.7 x 10 3 W/m2 d) 1.9 x 10 -4 W/m2

The rotation of rod OA about O is defined by the relation theta = t3 - 4t, where 6 and t are expressed in radians and seconds, respectively. Collar B slides along the rod so that its distance from O is r = 2.5t3 - 5t2, where r and t are expressed in inches and seconds, respectively. When f = 1 s, determine (a) the velocity of the collar, (b) the acceleration of the collar, (c) the radius of curvature of the path of the collar.

please hurry A charge of 5 micro coulomb is shifted from the center of the cube by 3 cm. Length of the cube is 8 cm. What will happen to the flux passing through 1 surface closest to the new position of charge? Decreases Depends on the shortest distance between charge and the surface O Increases Remains the same