Rocket in flight is not an illustration of projectle .
Rocket takes flight due to combustion of fuet and does not move undr the graveity effect alone.

Is the rocket in flight is an illustration of projectile ?

Assertion : A rocket in flight is an illustration of projectile Reason : Because roket is not projected with some initial veloctity .

Answer the following: a) The casing of a rocket in flight burns up due to friction. At whose expense is the heat required for burning obtained? The rocket or the atmosphere? b) Comets move around the sun in highly elliptical orbits. The gravitational force on the comet due to the sun is not normal to the comet's velocity in general. Yet the work done by the gravitatonal force over every complete orbit of the comet is zero. Why? c) An artificial satellite orbiting the earth in very atmosphere loses its energy grdually due to dissipation against atmospheric resistance, howerver small. Why then does its speed increase progressively as it comes closer and closer tothe earth? d)In fig i) the man walks 2m carrying a mass of 15 kg on his hands. In Fig ii) he walks the same distance pulling the rope behind him. The rope goes over pulley, and a mass of 15 kg hangs at its other end. In which case is the work done greater?

The satellites when launched from the earth are not given the orbital velocity initially, a multistage rocket propeller carries the spacecraft up to its orbit and during each stage rocket has been fired to increase the velocity to acquire the desired velocity for a particular orbit. The last stage of the rocket brings the satellite in circular/elliptical (desired) orbit. Consider a satellite of mass 150 kg in a low circular orbit. In this orbit, we cannot neglect the effect of air drag. This air opposes the motion of satellite and hence the total mechanical energy of earth-satellite system decreases. That means the total energy becomes more negative and hence the orbital radius decreases which causes the increase in KE When the satellite comes in the low enough orbit, excessive thermal energy generation due to air friction may cause the satellite to burn up. Based on the above information, answer the following questions. If due to air drag, the orbital radius of the earth decreases from R to R-/_\R, /_\Rlt ltR , then the expression for increase in the orbital velocity /_\v is

The satellites when launched from the earth are not given the orbital velocity initially, a multistage rocket propeller carries the spacecraft up to its orbit and during each stage rocket has been fired to increase the velocity to acquire the desired velocity for a particular orbit. The last stage of the rocket brings the satellite in circular/elliptical (desired) orbit. Consider a satellite of mass 150 kg in a low circular orbit. In this orbit, we cannot neglect the effect of air drag. This air opposes the motion of satellite and hence the total mechanical energy of earth-satellite system decreases. That means the total energy becomes more negative and hence the orbital radius decreases which causes the increase in KE When the satellite comes in the low enough orbit, excessive thermal energy generation due to air friction may cause the satellite to burn up. Based on the above information, answer the following questions. It has been mentioned in the passage that as r decreases, E decreases but K increases. The increase in K is [ E = total mechanical energy, r = orbital radius, K= kinetic energy ]

(i) A straight railway track is at a distance ‘d’ from you. A distant train approaches you travelling at a speed u (lt speed of sound ) and crosses you. How does the apparent frequency (f) of the whistle change with time ( f_(0) is the original frequency of the whistle). Draw a rough f vs t graph. (ii) A bat is tracking a bug. It emits a sound, which reflects off the bug. The bat hears the echo of the sound 0.1 seconds after it originally emitted it. The bat can tell if the insect is to the right or left by comparing when the sound reaches its right ear to when the sound reaches its left ear. Bat’s ears are only 2 cm apart. Bats also use the frequency change of the sound echo to determine the flight direction of the bug. While hovering in the air (not moving), the bat emits a sound of 40.0 kHz . The frequency of the echo is 40.4 kHz . Assume that the speed of sound is 340 m//s . (a) How far away is the bug? (b) How much time delay is there between the echo reaching the two ears if the bug is directly to the right of the bat? (c) What is the speed of the bug?

(a) An unpowered rocket is in flight in air. At a moment the tracking radar gives following data regarding the rocket. r = distance of the rocket from the radar = 4000m, (dr)/(dt) = 0,(d theta)/(dt) = 1.8 "deg"//sec , where theta is the angle made by position vector of the rocket with respect to the vertical. (a) Neglect atmospheric resistance and take g = 9.8 m//s^(2) at the concerned height. Neglect height of radar. Calculate the height of the rocket above the ground. (b) Two points A and B are moving in X - Y plane with constant velocity of V_(A)= (6hati - 9 hatj ) m//s and V_(B) = (hati+hatj) m//s respectively. At time t = 0 they are 15 m apart and both of them lie on y axis with A lying away on positive Y axis with respect to B. What is the angular velocity of A with respect to B at t = 1 s ?