Gravitation n Projectile Motion

AI Thread Summary
The discussion revolves around deriving the mass of a satellite in orbit and analyzing projectile motion. A specific scenario involves a projectile fired at 10 m/s at a 30-degree angle, which collides with another object falling from 40 meters at its maximum height. Clarification is sought on whether the falling object drops simultaneously with the projectile's launch and how to calculate the range post-collision. Additionally, there is a debate on whether the mass of the projectiles affects their range when projected at the same angle and velocity. The conversation emphasizes the need for precise definitions and calculations in projectile motion scenarios.
Muhammad
1)Is there any way to derive an expression for the mass of a satellite in an orbit??

2)A projectile is fired with a velocity of 10 m/s at an angle of 30 to the horizontal. When it reaches the maximum height,an object dropping 40 m above the projectile, collides with the projectile.Find the range

3)Two bodies of mass m1 and m2 are projected one after another at the same angle and the same velocity.Which will be projected further, considering the fact that m1 is heavier than m2.
 
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What do you think -- and why?
 
One and three should be trivial

2)A projectile is fired with a velocity of 10 m/s at an angle of 30 to the horizontal. When it reaches the maximum height,an object dropping 40 m above the projectile, collides with the projectile.Find the range

doesn't make sense. Do you mean that this object started dropping at the same time the projectile was fired? Do you mean what the range would if there were no collision?
 
Originally posted by HallsofIvy
One and three should be trivial



doesn't make sense. Do you mean that this object started dropping at the same time the projectile was fired? Do you mean what the range would if there were no collision?


When the projectile reached max height it collided with another object that was falling vertically from 40 m above.
Calculate the range after collision of the two bodies.
 

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