Consider three pont three pont charges located at the ners ranght mangle as shown in Figure 久3.7, a 0,100 m a. Find the resultant force exerted on a b. Find the nesultant furce exerted on q c. Find the resultont force eserted on 1a d sheteh the thrce resullant vecturs fur Fz and Fs Fiqure 23.7 92 13 91
Consider three pont three pont charges located at the ners ranght mangle as shown in Figure 久3.7, a 0,100 m a. Find the resultant force exerted on a b. Find the nesultant furce exerted on q c. Find the resultont force eserted on 1a d sheteh the thrce resullant vecturs fur Fz and Fs Fiqure 23.7 92 13 91
Problem #4 : A) Design the bias circut to give a Q-pont of 1c mA and VEC-4Vifß = 100 B) What is the Q-point of your design if ß of the transistor is actually 50 5V R.B RC
Take σ = 1.16 x 10-10 cm2 and q : 1.06 x 10-11 C A pont charge g is near a uniformly charged, large flat surface of a dielectric (see the figure below). Find the electric field at P Measure the angle counterclockwise from the positive x axis.) magnitude direction +-10.0 cm 10,0 cm
In the figure Q = 5.8 nC and all other quantities are accurate
to 2 significant figures. What is the magnitude of the force on the
charge Q? (k=8.99*10^9)
The figure below shows two point charges q1-+4.5 x 10-8 C and q,--5.8 x 10-8 c. y, cm 42 10 91 r, cm 10 20 (a) Find the potential at A. 2.88e3 V (b) Find the potential at B. 1.72e3 V X (c) Find the potential difference VA - VB. 4.6e3 V
physics .. A charge of Q = 5.8 x 10-6 C is placed in a constant electric field. The charge is moved in the opposite direction to the field a distance of d = 0.84 m. 68 x 10-6J of work is done in moving the charge. What is the potential difference between the start and finish positions of the charge? Give your answer to one decimal place, in SI units
Find Generalized compressibility factor Z for given : Tr = 5.8 and Pr = 0.02
QUESTIONS PONT 2012 the population of a district was 26,300. With a continuous annual growth rate of approximately 4%, what population ben 2023 according to the exponential growth function? Round the answer to the ne e answer to the nearest whole number Step shing 0 6 6 F9 & q F10 7 511 000 &
1) For part A, calculate q (the heat lost in calories) for copper and lead. The specific heats of these metals are in the background section. Then calculate q (the heat gained in calories) for the water in each case. Remember that you used 25.0 g of water in the experiment. Show your calculations 2)The heat lost by the metal and the heat gained by the water should be the same. Are they? If not, list possible sources of error....