Using the picture of the roller coaster, calculate the KE when the coaster is HALF the distance DOWN the first hill.a) 0 Jb) 6.3 Jc) 14.1 Jd) 20 Je) 40 Jf) 63Jg) 141 Jh) 10000 Ji) 20000 Jj) 50000 Jk) 100000 Jl) 200000 Jm) 400000 Jn) 500000 Jo) 630000 Jp) don't be silly, it's none of these!! **Roller Coaster Physics****Image Description:** The diagram depicts a simplified side view of a roller coaster with two hills. Below is a detailed description:1. **Mass of the Coaster:** - The mass of the roller coaster is labeled as 500 kg.2. **First Hill:** - The first hill is the tallest, reaching a height of 20 meters. - It is depicted with a black net-like pattern, indicating the steep descent and ascent.3. **Second Hill:** - The second hill is smaller, with a height of 10 meters. - It is also shown with a similar black net pattern, representing its shape.4. **Reference Level:** - The ground is labeled as the reference level at 0 meters.Each hill is marked in blue with its respective height, and the heights are indicated with red lines. This roller coaster diagram is used to illustrate concepts of gravitational potential energy and kinetic energy in physics.

Name: Using the picture of the roller coaster, calculate the KE when the coa
Uploaded: 2024-03-20T06:57:25.000Z
Channel: Bartleby
Description: Using the picture of the roller coaster, calculate the KE when the coaster is HALF the distance DOWN the first hill.a) 0 Jb) 6.3 Jc) 14.1 Jd) 20 Je) 40 Jf) 63Jg) 141 Jh) 10000 Ji) 20000 Jj) 50000 Jk) 100000 Jl) 200000 Jm) 400000 Jn) 500000 Jo) 630000