FIND "V0" IN TERMS Of "Is" AND RESISTANCES
For both resistances, plot the discharge curve of ln (V/V0) vs. time. From the slope of the line, calculate C (capacity). Please write your answer as large and neatly as possible. Discharge R = 10,000 R = 5,000 Voltage (V) Time (S) Time (S) 14 0 0 13 4.71 3.50 12 9.96 5.33 11 15.71 8.33 10 22.08 11.24 9 28.99 14.58 8 36.64 18.43 7 45.61 22.86 6 56.05 28.21 5 1:08.07 34.40 4 1:21.27 41.83 3 1:42.48 51.80...
A projectile is launched with speed v0 at an angle of θ0 above the horizontal. Find an expression for the maximum height it reaches above its starting point in terms of v0, θ0, and g.
For the system shown, determine the voltage V, in terms of the resistances and voltage Vi. R2 View imiznint
a) find the no-load value of v0 in the circuit shown b) find v0 when RL is 150 k(ohms) c) how much power is dissipated in the 25 k(ohms) resistor if the load terminals are accidentally short-circuited? d) what is the maximum power dissipated in thr 75 k(ohms) resistor when RL is 150 k(ohms)? a) Find the no-load value of vo in the circuit shown. b) Find vo when Rt is 150 kQ. c) How much power is dissipated in...
GIVEN, FIND ( I ) AND ( V0 ) FOR EACH CIRCUIT.
A rock is thrown with an initial speed v0 from the top of a building at an angle θ (theta) above the horizontal. It hits the ground below after traveling a horizontal distance L. Find an expression for the height of the building. Your answer should be in terms of v0, L, θ (theta), and g, as needed. Please show all work!
An object of mass 3M, moving in the +x direction at speed v0, breaks into two pieces of mass M and 2M as shown in the figure below. ?1=47.0?? and ?2=32.0??, determine the final velocities of the resulting pieces in terms of v0. Determine the x component of the velosity of the smaller piece v1xin terms of v0. (Express your answer to three significant figures.) Determine the ycomponent of the velosity of the smaller piece v1y in terms of v0....
An object of mass 3M, moving in the +x direction at speed v0, breaks into two pieces of mass M and 2M as shown in the figure below. ?1= 48.0 and ?2= 33.0, determine the final velocities of the resulting pieces in terms of v0. 1) Determine the x component of the velocity of the smaller piece v1x in terms of v0. (Express your answer to three significant figures.) 2) Determine the y component of the velocity of the smaller...
Classical electromagnetism predicted that V0 should have increased as the intensity of the incident light increased. On the contrary, it was found that V0 increased as the frequency f of the light increased. The voltage V0 was found to obey the following linear relationship: V0=mf−b, where m and b are numerical constants (representing the slope and the intercept, respectively). By comparing this equation to your answer from Part B, V0 = (Elight−ϕ)/e, find an expression for the intercept b. (Notice...
find V0 4 6V 2MA find Vo = divis ion to findthe volhaqe