Are you interested in purchasing the entire website? If so, we will include an additional premium domain (freetimelearn.com) at no extra cost along with this domain.
Mail : freetimelearn@gmail.com
WhatsApp : +919966463846
Correct Answer : True
Explanation : In a system with two point masses m1, m2 having mutual gravitational force acting on each other, the center of mass lies somewhere along the line joining the two masses. The center of mass of this system is non accelerating having a constant velocity.
Correct Answer : Option (B) : 830.66 km
Explaination : Eccentricity (e) = 1.3Specific Energy (ε) = 199.3 km2/s2Gravitational parameter (μ) = 398,600 km3/s2We know,Semi-major axis (a) = μ/(2ε)= 398,600/(2*199.3)= 1000 kmAiming radius (Δ) = a*(e2 – 1)1/2= 1,000*(1.32 – 1)1/2= 830.66 km
Correct Answer : Option (A) : True
Explanation : True. Hyperbolic excess velocity is the relative velocity between helio-centered ellipse and earth’s orbit. It is achieved when a spacecraft accelerates to a speed more than escape velocity. Maintaining a proper hyperbolic excess is important to perform inter-planetary transfers.
Correct Answer : Option (C) : 20,000 km
Explanation : Perigee radius (rp) = 9,800 kmPerigee radius (ra) = -49,800 kmWe know, for hyperbolas,rp = a(e – 1)ra = -a(e + 1)where, a and e are semi-major axis and eccentricity, respectivelyDividing equations mentioned above and substituting the given values, we get,9800/49,800 = (e – 1)/(e + 1)0.1968(e + 1) = e – 10.8032e = 1.1968e = 1.49Substituting back into perigee radius equation, we get,Semi-major axis (a) = rp/(e – 1)= 9800/(1.49 – 1)= 20,000 km
