Fill in the order form to get the price

Subject

Category

Deadline

Timezone:

Title *

Task *

{"ops":[{"insert":"\n\n. The average potential difference between ground\nand electrosphere, called the atmospheric electric potential, is approximately 240 kV.\nIn this model it is assumed that the Earth has a negative electric charge about 6 \u00d7 105\nC, the resistance R1 under\nthunderstorm cloud when lightnings are observed is of the order 104\n\u2013 105\n\u03a9; R2 above thunderstorm cloud is\nof the order 105\n\u2013 106\n\u03a9; the load resistors R3 and R4 are equal to 15 \u03a9 and 150 \u03a9 respectively \n\n1. In the circuit shown above, label the potential difference between electrosphere and ground.\n2. Label the electric field pattern around R4.\n3. Calculate the total load resistance.\n4. Given that the capacitive effect between electrosphere and ground is 2.9 F, calculate the time constant\nof this global electric circuit. (Hint: Use effective R as the series combination of resistors R3 and R4)\n5. What is the significance of this time constant?\n6.  discuss the process of charge separation in thunderclouds.\n\n"}]}

I need basic explanations

Special Requirements

Upload files (if required)

Drop files here to upload

Add files...

Account info

Already have an account?

Name *

E-mail *

Password *

The password must be at least 6 characters.

I agree with terms & conditions