An appropriate communication channel needed to send a signal of bandwidth 100 kHz over a distance of 8 km is

A woman pushes a trunk on a railway platform which has a rough surface. She applies a force of 100 N over a distance of 10m. Thereafter, she gets progressively tired and her applied force reduces linearly with distance to 50 N. The total distance through which the trunk has been moved is 20m. Plot the force applied by the woman and the frictional force, which is 50 N versus displacement. Calculate the work done by the two forces over 20 m.

Consider an optical communication system operating at lambda ~ 800 nm . Suppose, only 1% of the optical source frequency is the available channel band-width for optical communication. Channels which can be accommodated for transmitting video TV signals requiring an approximate band-width of 4.5 MHz are

A ground receiver station is receiving a signal at 100 MHz, transmitted from a ground transmitter at a height of 300 m located at a distance of 100 km. It is coming via (Given the value of radius of the earth = 6400 km and maximum electron density, N_(max) = 10^12 m^-3 ).

To warn ships for underwater rocks, a lighthouse spreads a red coloured light over a sector of angle 80^(@) to a distance of 16.5 km. Find the area of the sea over which the ships are warned. (" Use "pi=3.14).

An auto charges 15 for first kilometer and 8 each for each subsequent kilometer. For a distance of ‘x’ km. an amount of ‘y’ is paid. Write the linear equation representing this information and draw the graph. With the help of graph find the distance travelled if the fare paid is 55? How much would have to be paid for 7 kilometers?

A sonar device on a submarine sends out a signal and receives an echo 5 a later .Calculate the speed of sound in water if the distance of the object from the submarine is 3625m.

Represent the following situations in the form of quadratic equations : A train travels a distance of 480 km at a uniform speed. If the speed had been 8 km/h less, then it would have taken 3 hours more to cover the same distance. We need to find the speed of the train.

An automobile driver travels from plane to a hill station, a distance of 120 km at an average speed of 30 km per hour. He then makes the return trp at an average speed of 25 km per hour. He covers another 120 km distance on plane at an average speed of 50 km per hour. His average speed over the entire distance of 360 km will be :