Four particles
A rocket is launched normal to the surface of the earth, away from the sun, along the line joining the sun and the earth. The sun is 3 × 10^5 times heavier than the earth and is at a distance 2.5 × 10^4 times larger than the radius of the earth. the escape velocity from earth’s gravitational field is ue = 11.2 m/s. The minimum initial velocity (ue) = 11.2 m/s. the minimum initial velocity (us) required for the rocket to be able to leave the sun-earth system is closest to (Ignore the rotation of the earth and the presence of any other planet
06
Oct
A rocket is launched normal to the surface of the earth, away from the sun, along the line joining the sun and the earth. The sun is 3 × 10^5 times heavier than the earth and is at a distance 2.5 × 10^4 times larger than the radius of the earth. the escape velocity from [...]
A planet of radius R = 1/10×( radius of Earth ) has the same mass density as Earth. Scientists dig a well of depth R/5 on it and lower a wire of the same length and a linear mass density 10^−3 kg m(_1) into it. If the wire is not touching anywhere, the force applied at the top of the wire by a person holding it inplace is (take the radius of Earth = 6 × 10^6 m and the acceleration due to gravity on Earth is 10 m/s^2
06
Oct
A planet of radius R = 1/10×( radius of Earth ) has the same mass density as Earth. Scientists dig a well of depth R/5 on it and lower a wire of the same length and a linear mass density 10^−3 kg m(_1) into it. If the wire is not touching anywhere, the force applied [...]
A satellite is moving with a constant speed ‘V’ in a circular orbit about the earth. An object of mass ‘m’ is ejected from the satellite such that it just escapes form the gravitational pull of the earth. At the tme of its ejection, the kinetic energy of the object is
06
Oct
A satellite is moving with a constant speed ‘V’ in a circular orbit about the earth. An object of mass ‘m’ is ejected from the satellite such that it just escapes form the gravitational pull of the earth. At the tme of its ejection, the kinetic energy of the object is each of mass M [...]
Four particles, each of mass M and equidistant from each other, move along a circle of radius R under the action of their mutual gravitational attraction. The speed of each particle is:
06
Oct
Four particles, each of mass M and equidistant from each other, move along a circle of radius R under the action of their mutual gravitational attraction. The speed of each particle is: each of mass M and equidistant from each other Four particles move along a circle of radius R under the action of their [...]
Four particles, each of mass M and equidistant from each other, move along a circle of radius R under the action of their mutual gravitational attraction. The speed of each particle is:
13
Sep
Four particles, each of mass M and equidistant from each other, move along a circle of radius R under the action of their mutual gravitational attraction. The speed of each particle is: each of mass M and equidistant from each other Four particles move along a circle of radius R under the action of their [...]