The dark saturation current of a solar cell is 1.6E-8 A/m², the cell temperature is 321 K, the short-circuit current density is 170 A/m², Vmax is 0.476 V and the available solar radiation is 790 W/m² . The Boltzmann's gas constant is 1.381X1023 J/K and the electronic charge is 1.602X10-19 c. Calculate Open-circuit voltage Voc in Volts = %3D Current density at maximum power Imax in A/m²= Maximum power Pmax in W/m² = % Maximum efficiency nmax %3D

The dark saturation current of a solar cell is 1.6E-8 A/m², the cell temperature is 321 K, the short-circuit current density is 170 A/m², Vmax is 0.476 V and the available solar radiation is 790 W/m² . The Boltzmann's gas constant is 1.381X1023 J/K and the electronic charge is 1.602X10-19 c. Calculate Open-circuit voltage Voc in Volts = %3D Current density at maximum power Imax in A/m²= Maximum power Pmax in W/m² = % Maximum efficiency nmax %3D

Related questions

Q: In a water pistol, a piston drives water through a larger tube of area A, into a smaller tube of…

A: Given data: The diameter of larger tube is d1 = 1.4 cm. Considering the density of water is ρ=1000…

Q: In Figure 1, calculate the magnitude of the net Coulomb force on charge Q2 = +4.0 µC due to charges…

Q: E and F

A: We are given energy released per second from sun. This is the luminosity of sun. We know that 4 H…

Q: Find to three significant digits the charge and the mass of the following particles. Suggestion:…

A: We need to find the mass and charge on ion

Q: 33

Q: (e) In the regions where the potential is V₂, the particle's wavefunction satisfies the time-…

Q: A point mass of 1.50 kg is connected to the end of a 2.00 m long rod of negligible mass. The other…

A: In the question given mass of point, length of rod and net torque. we have to find the value of…

Q: A point mass of 1.50 kg is connected to the end of a 2.00 m long rod of negligible mass, The other…

A: In the question , Given the value of angular acceleration , mass , length of road . We have to find…

Q: A current of 0.78 A flows through a copper wire 0.50 mm in diameter when it is connected to a…

Q: 2. A 52 kg ice hockey player moving at 11 m/s slows down and stops over a displacement of 8.0 m. ™C…

A: Given that: The mass of the hockey is m=52 kg The initial speed is u=11 m/s The final speed is v=0…

Q: 5. C= A × B. (Note that vectors are in boldface.) (a) If A points in the +x direction, and B points…

A: a) Given Direction of A = +x…

Q: The figure below shows the position of a car every 10 seconds. The red arrows "represents" the…

A: Let v1, v2, v3, v4, and v5 denote the velocity vectors at the times (t) 5 s, 15 s, 25 s, 35 s, and…

Q: en that the capacitors C₁ = 5.8 µF, C₂ = 14.8 μF, and C3 20.8 μF are connected to ttery with V 17.9…

A: C1=5.8μF C2=14.8μF C3=20.8μF V=17.9 V

Q: (a) What is the kinetic energy of a 65.0 kg sprinter running at 2.30 m/s? (b) How fast must a 3000.0…

Q: D. Suppose that the block was replaced by a block with half the mass and was released K (Joules)…

A: (d) Total energy of the block-spring system when the mass is reduced by a factor of 2…

Q: d and e

Q: LO 7: Using the symmetry of the arrangement, determine the direction of the force on q in the figure…

Q: Can someone solve d, e, f, and g

Q: ONLY PART D AND E

A: D. pulley angular acceleration = 2.99687 rad/sec2 E. The rotational Inertia of pulley = 4.3 x 10-3…

Q: mall airplane flying horizontally with a speed of 186 mi/hr at an altitude of 315 ft above a remote…

Q: A) i.,ii.,iii,

Q: If multiple objects move together, you should draw a free body diagrams (FBD) for each object and a…

Q: 1A = 6 cm B = 5 cm 60 30° 30° C=4 cm D= 2 cm In the figure above (a) Find the x and y components of…

Q: 5. Suppose hat a particular muchine in a facfoal has two 'steel pieces that must (ub against each…

Q: If the original arrow is 2 cm tall, how tall is the image formed by the right lens? (enter a…

Question

The dark saturation current of a solar cell is
1.6E-8 A/m2, the cell temperature is 321 K,
the short-circuit current density is 170 A/m?,
Vmax is 0.476 V and the available solar
radiation is 790 W/m² . The Boltzmann's
gas constant is 1.381X1023 J/K and
the electronic charge is 1.602X1019 c.
Calculate
Open-circuit voltage Voc in Volts :
%3D
Current density at maximum power Imax in
A/m²=
Maximum power Pmax in W/m2 =
% Maximum efficiency nmax =

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step by step

Solved in 4 steps

SEE SOLUTION Check out a sample Q&A here