Energy and Motion in Loops

Energy and Motion in Loops

Assessment

Interactive Video

•

Physics, Science

•

9th - 12th Grade

•

Medium

Created by

Sophia Harris

Used 1+ times

FREE Resource

The video tutorial explores a physics problem involving a loop-d-loop made of ice and a compressed spring. The problem is to determine how much the spring needs to be compressed to allow a block of ice to complete the loop without friction. The instructor explains the concepts of potential and kinetic energy, emphasizing energy conservation. By calculating the initial potential energy and analyzing the energy components at different points, the instructor derives the necessary compression distance for the spring to ensure the block completes the loop safely.

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10 questions

Show all answers

1.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the radius of the loop-d-loop in the problem setup?

1 meter

2 meters

3 meters

4 meters

2.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Why is the loop-d-loop made of ice?

To increase speed

To make it slippery

To reduce weight

To eliminate friction

3.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the main challenge in completing the loop-d-loop?

Increasing the spring constant

Reducing mass of the block

Achieving enough velocity at the top

Maintaining constant speed

4.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which type of energy is initially stored in the compressed spring?

Potential energy

Kinetic energy

Thermal energy

Gravitational energy

5.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the formula for the initial potential energy of the spring?

kx

kx^2

1/2 kx^2

1/2 kx

6.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the gravitational potential energy at the top of the loop?

Spring constant times compression

1/2 mass times velocity squared

Mass times gravity times height

Mass times velocity

7.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the centripetal acceleration at the top of the loop?

Equal to spring constant

Equal to mass times gravity

Equal to gravity

Equal to velocity squared

8.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

How much energy is needed at the top of the loop to complete it?

12g

10g

8g

5g

9.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the required compression of the spring to achieve the necessary energy?

3.13 meters

2.5 meters

4 meters

5 meters

10.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the total potential energy required to complete the loop?

120 joules

98 joules

75 joules

50 joules

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