It is equal to the weight of the object.

It is equal to the density of the fluid.

It is equal to the volume of the object.

It is equal to the weight of the fluid displaced by the object.

Water has a lower density than air.

Water exerts a downward force on the block.

The buoyant force in water is greater than in air.

The block becomes heavier in water.

The density of the block.

The buoyant force on the block.

The volume of the block.

The weight of the block.

It increases the tension required.

It doubles the tension required.

It has no effect on the tension.

It decreases the tension required.

Pressure is force divided by area.

Pressure is force multiplied by area.

Pressure is force minus area.

Pressure is force plus area.

Density of fluid × Volume of object × Gravitational acceleration

Mass of object × Gravitational acceleration

Density of object × Volume of fluid × Gravitational acceleration

Volume of fluid × Gravitational acceleration

Water's density decreases the buoyant force.

Water's density makes the buoyant force equal to air's.

Water's density has no effect on the buoyant force.

Water's density increases the buoyant force.