In the movie Superman( 1978) , superman reverses time by reversing the rotation of the earth....

Zorch, an archenemy of Superman, decides to slow Earth’s rotation to once per 29.5 h by...

Zorch, an archenemy of Superman, decides to slow Earth’s rotation to once per 29.5 h by exerting a force parallel to the equator, opposing the rotation. He uses an old Saturn V rocket, stolen from NASA, which was originally used to send astronauts to the Moon. This rocket can exert a thrust of F = 4.1 × 107 N. a) If the original angular velocity of Earth is ω0 and Zorch is trying to get the Earth to an angular...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 34.5 h...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 34.5 h by exerting an opposing force at the equator and parallel to it. Superman is not immediately concerned, because he knows Zorch can only exert a force of 4.80 107 N (comparable to a Saturn V rocket's thrust). Assume the Earth's initial rotation is exactly once per 24.0 h to find how long Zorch must push with this force to accomplish his goal. (This gives...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 41.5 h...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 41.5 h by exerting an opposing force at the equator and parallel to it. Superman is not immediately concerned, because he knows Zorch can only exert a force of 3.20 107 N (comparable to a Saturn V rocket's thrust). Assume the Earth's initial rotation is exactly once per 24.0 h to find how long Zorch must push with this force to accomplish his goal. (This gives...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 35.0 h...

Zorch, an archenemy of Superman, decides to slow the Earth's rotation to once per 35.0 h by exerting an opposing force at the equator and parallel to it. Superman is not immediately concerned, because he knows Zorch can only exert a force of 3.20 x10^7 N (comparable to a Saturn V rocket's thrust). Assume the Earth's initial rotation is exactly once per 24.0 h to find how long Zorch must push with this force to accomplish his goal. (This gives...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if (a) its initial speed is 0.480 of the escape speed from Earth and (b) its initial kinetic energy is 0.480 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.) (c) What is the least initial mechanical energy required at launch if the...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if (a) its initial speed is 0.763 of the escape speed from Earth and (b) its initial kinetic energy is 0.763 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.) (c) What is the least initial mechanical energy required at launch if the...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if(a) its initial speed is 0.335 of the escape speed from Earth and (b) its initial kinetic energy is 0.335 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.) (c)What is the least initial mechanical energy required at launch if the projectile is...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if (a) its initial speed is 0.463 of the escape speed from Earth and (b) its initial kinetic energy is 0.463 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.) (c) What is the least initial mechanical energy required at launch if the...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if (a) its initial speed is 0.484 of the escape speed from Earth and (b) its initial kinetic energy is 0.484 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.) (c)What is the least initial mechanical energy required at launch if the projectile...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What...

A projectile is shot directly away from Earth's surface. Neglect the rotation of the Earth. What multiple of Earth's radius RE gives the radial distance (from the Earth's center) the projectile reaches if (a) its initial speed is 0.677 of the escape speed from Earth and (b) its initial kinetic energy is 0.677 of the kinetic energy required to escape Earth? (Give your answers as unitless numbers.)