Miscellaneous resisted motion question (1 Viewer)

A1La5 · Nov 2, 2021

"Particle A and Particle B are travelling along a straight line at constant speeds $v_{a}$ and $v_{b}$ respectively. Particle A is behind Particle B, but is travelling faster. When Particle A is exactly $D$ metres behind Particle B, Particle A begins decelerating at $k$ ms^-2.

1. Using calculus, find the speed of Particle A after it has travelled a distance of $x$ metres under braking.
2. Given that $v_{a}-v_{b} > \sqrt[]{2kD}$ , prove that the particles will collide.

I'm struggling with Part 2 of this question. I've came up with an answer for Part 1, but I'm not sure if it's right.

Life'sHard · Nov 2, 2021

A1La5 said:
"Particle A and Particle B are travelling along a straight line at constant speeds $v_{a}$ and $v_{b}$ respectively. Particle A is behind Particle B, but is travelling faster. When Particle A is exactly $D$ metres behind Particle B, it begins decelerating at $km/s^2$

1. Using calculus, find the speed of Particle A after it has travelled a distance of $x$ metres under braking.
2. Given that $v_{a}-v_{b} > \sqrt[]{2kD}$ , prove that the particles will collide.

I'm struggling with Part 2 of this question. I've came up with an answer for Part 1, but I'm not sure if it's right.

I'm not sure what it means by "decelerating at $km/s^2$ ". Also what decelerates B or A?

Paradoxica · Nov 2, 2021

Life'sHard said:
I'm not sure what it means by "decelerating at $km/s^2$ ".

k metres per second squared. just slightly bad formatting

A1La5 · Nov 2, 2021

Life'sHard said:
Also what decelerates B or A?

Particle A decelerates, apologies. I'll update the original post.

Miscellaneous resisted motion question (1 Viewer)

A1La5

Active Member

Life'sHard

Well-Known Member

Paradoxica

-insert title here-

A1La5

Active Member

Users Who Are Viewing This Thread (Users: 0, Guests: 1)