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Straighterline Introduction to Physics (lab) PHY250L Lab 8 Buoyant Force & Archimedes Principle COMPLETE Worksheet (New Version August 2024) Scored 100%£8.60
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Straighterline Introduction to Physics (lab) PHY250L Lab 8 Buoyant Force & Archimedes Principle COMPLETE Worksheet (New Version August 2024) Scored 100%
Straighterline Introduction to Physics (lab) PHY250L Lab 8 Buoyant Force & Archimedes
Principle COMPLETE Worksheet (New Version August 2024) Scored 100%
Lab 8 Buoyant Force & Archimedes Principle PHY250L
Straighterline Introduction to Physics (lab) PHY250L Lab 8 Buoyant Force & Archimedes
Principle COMPLETE Worksheet (New Version August 2024) Scored 100%
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Lab Report Format Expectations
Utilize college level grammar and formatting when answering text based questions.
Report all equations in a proper mathematical format, with the correct signs and symbols.
Submissions with incomplete or improperly formatted responses may be rejected.
Pre-Lab Questions
1. Archimedes' principle is a fundamental concept in fluid mechanics and relates directly to the
buoyant force. Archimedes' principle states that:
"Any object, wholly or partially immersed in a fluid, is buoyed up by a force equal to the weight of the
fluid displaced by the object."
In your own words, explain the Buoyant Force as it relates to Archimedes Principle. Ensure that you
discuss this in terms of the equation for Buoyant Force.
When an object touches the water's surface, it feels additional force under the surface, which is
known as the buoyant force. An thing must withstand more water pressure the deeper it is. Pressure
can be felt by two objects, but it is felt more by the object that is deeper than the other. P=pgh is
the formula that pertains to this idea, where p stands for density, g for gravity, and h for height. As
one descends farther into a body of water, pressure increases, gravity plays a role, and the height
indicates the amount of water deposited on top of an object or person. For a laboratory test that
compares two distinct masses By comparing the water displacement after it has been placed inside a
beaker full of water, buoyant force will also be detected. The entire mass of an object inside the
beaker that isn't submerged in water will be measured using a 5N scale. A mass submerged in water
becomes lighter, causing the object's force to fall more slowly than it would under normal gravity
conditions.
, Lab 8 Buoyant Force & Archimedes Principle PHY250L
2. Draw a free body diagram of a hanging mass before it is submerged in water. Make sure to
label your forces and include your handwritten name in the background.
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