SPH4U0: Forces Take-Home Assignment Name: 4. Derive the equation for the maximum speed for a banked curve with friction. Show all work and add You will need a FBD. explain your steps, explanations to the steps. [T5, C4] 5. Using the derived equation from the previous question, solve the following problem:
SPH4U0: Forces Take-Home Assignment Name: 4. Derive the equation for the maximum speed for a banked curve with friction. Show all work and add You will need a FBD. explain your steps, explanations to the steps. [T5, C4] 5. Using the derived equation from the previous question, solve the following problem:
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![SPH4U0: Forces Take-Home Assignment
Name:
You will need a FBD.
explain your steps,
4. Derive the equation for the maximum speed for a banked curve with friction. Show all work and add
explanations to the steps.
[T5, C4]
5. Using the derived equation from the previous question, solve the following problem:
A race car is cornering a banked curve with r = 55 m at an angle of 40 degrees. If the car corners the banked
curve with a speed of 216 km/h, what is the minimum coefficient of friction required? [T4]
6. Two masses mA = 2.0 kg and m³ = 5.0 kg are on incline and are connected by a string as shown bwlow. The
coefficient of kinetic friction between each mass and its incline is µ = 0.30. If ma moves up, and me moves
down, determine their acceleration. You are ignoring the masses of the pulley and the cord. [T5, C4]
mB
MA
21°
51°](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffc8ca1f5-10b5-4e76-9ca1-9785bb9dcba6%2F20f38c01-36c9-4608-a89a-bcc8719964a7%2Fjkhgqg4_processed.jpeg&w=3840&q=75)
Transcribed Image Text:SPH4U0: Forces Take-Home Assignment
Name:
You will need a FBD.
explain your steps,
4. Derive the equation for the maximum speed for a banked curve with friction. Show all work and add
explanations to the steps.
[T5, C4]
5. Using the derived equation from the previous question, solve the following problem:
A race car is cornering a banked curve with r = 55 m at an angle of 40 degrees. If the car corners the banked
curve with a speed of 216 km/h, what is the minimum coefficient of friction required? [T4]
6. Two masses mA = 2.0 kg and m³ = 5.0 kg are on incline and are connected by a string as shown bwlow. The
coefficient of kinetic friction between each mass and its incline is µ = 0.30. If ma moves up, and me moves
down, determine their acceleration. You are ignoring the masses of the pulley and the cord. [T5, C4]
mB
MA
21°
51°
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