To understand how the conservation of energy and Newton's second law can be combined to solve kinetic problems. As shown, a large globe has a radius R

and a frictionless surface. A small block with mass m starts sliding from rest at the top of the globe and slides along the globe’s surface. The block leaves the globe’s surface when it reaches a height hl above the ground. The system’s geometry is shown for an arbitrary height h. (Figure 1) Note that the subscripts used in this problem is the letter l

and not the number 1.

 

Consider what happens when the block leaves the globe’s surface. Which of the following statement or statements are correct?

1. The net acceleration of the block is directed straight down.
2. The component of the force of gravity toward the globe’s center is equal to the normal force’s magnitude.
3. The force of gravity is the only force acting on the block.Consider what happens when the block leaves the globe’s surface. Which of the following statement or statements are correct?

a only

b only

c only

a and b

a and c

b and c

a, b, and c

 

Transcribed Image Text:

R