nazi jew
Banned
- Joined
- May 9, 2005
- Messages
- 7
- Gender
- Male
- HSC
- 2005
this is the exact wording of the questions:
1) A particle projected from a point meets the horizontal plane through the point of projection after travelling a horizontal distance {a}, and in the course of its trajectory attains a greatest height {b} above the point of projection. Find the horizontal and vertical components of the velocity in terms of {a} and {b}. Show that when it has described a horizontal distance X it has attainted a height of {[4BX(a-X)] / a^2}.... (g=10)
2)A batsmen hits a cricket ball "off his toes" towards a fieldsman who is 65m away. The ball reaches a maximum height of 4.9m and the horizontal component of its velocity is 28m/s. Find the constant speed with which the fieldsman must run foward, starting at the instant the ball is hit, in order to catch the ball at a height of 1.3m above the ground... (g=9.8)
solutions: 1: (a/2).sqrt(g/2b).sqrt(2gb)
2: 7m/s
the questions are fine logically and diagramatically... i just have trouble with the algebra... (P.S. our class isnt learning any formulae for this topic, bar the '6 equations of motion'... would i need formulae (i.e. maximum height) in order to do these questions?).... thanks.
1) A particle projected from a point meets the horizontal plane through the point of projection after travelling a horizontal distance {a}, and in the course of its trajectory attains a greatest height {b} above the point of projection. Find the horizontal and vertical components of the velocity in terms of {a} and {b}. Show that when it has described a horizontal distance X it has attainted a height of {[4BX(a-X)] / a^2}.... (g=10)
2)A batsmen hits a cricket ball "off his toes" towards a fieldsman who is 65m away. The ball reaches a maximum height of 4.9m and the horizontal component of its velocity is 28m/s. Find the constant speed with which the fieldsman must run foward, starting at the instant the ball is hit, in order to catch the ball at a height of 1.3m above the ground... (g=9.8)
solutions: 1: (a/2).sqrt(g/2b).sqrt(2gb)
2: 7m/s
the questions are fine logically and diagramatically... i just have trouble with the algebra... (P.S. our class isnt learning any formulae for this topic, bar the '6 equations of motion'... would i need formulae (i.e. maximum height) in order to do these questions?).... thanks.
