Two masses, MA and MB, with MB = 2MA, are released at the same time and allowed to fall straight down. Neglect air resistance. When we compare their kinetic energies after they have fallen for equal times, we find thata. KB = KA.

b. KB = 2KA.

c. KB = 4KA.

d. KA = 2KB.

e. KA = 4KB.

Question

Physics

Jayden French

1 April, 22:31

Two masses, MA and MB, with MB = 2MA, are released at the same time and allowed to fall straight down. Neglect air resistance. When we compare their kinetic energies after they have fallen for equal times, we find thata. KB = KA.

b. KB = 2KA.

c. KB = 4KA.

d. KA = 2KB.

e. KA = 4KB.

+4

Answers (1)

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Kamora Brown · Answer 1

KB = 2KA

Explanation:

Given

MA = Mass of object A

MB = Mass of object B

Using, K. E = ½mv², where m = mass and v = velocity

The kinetic energy of A;

KA = ½MA. V²

The kinetic energy of B;

KB = ½MB. V²

Assuming air resistance is negligible, then velocity of A and B are equal; VA = VB = V

Given that MB = 2MA

The kinetic energy of B, becomes

KB = ½ (2MA). V²

KB = 2 * ½MA. V²

By substituton KA = ½MA. V²

KB becomes

KB = 2 * KA

KB = 2KA

Two masses, MA and MB, with MB = 2MA, are released at the same time and allowed to fall straight down. Neglect air resistance. When we compare their kinetic energies after they have fallen for equal times, we find thata. KB = KA.b. KB = 2KA.c. KB = 4KA.d. KA = 2KB.e. KA = 4KB.

Two masses, MA and MB, with MB = 2MA, are released at the same time and allowed to fall straight down. Neglect air resistance. When we compare their kinetic energies after they have fallen for equal times, we find thata. KB = KA.

b. KB = 2KA.

c. KB = 4KA.

d. KA = 2KB.

e. KA = 4KB.