make a model of ball and socket joint
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Answered by
14
Hey buddy here is ur answer .....
Ball and socket joints are found in the human body in shoulders and hips. They have a much greater range of motion than elbows and knee joints because they can move side to side and front to back, as well as up and down. Making models of ball and socket joints allows students to see why they have so much greater of a range than other joints. It is a simple task that you can accomplish in a classroom or at home for a science project or home work assignment.
Roll some clay in your hands into a ball. You want to use about the same amount of clay as it takes to
Ball and socket joints are found in the human body in shoulders and hips. They have a much greater range of motion than elbows and knee joints because they can move side to side and front to back, as well as up and down. Making models of ball and socket joints allows students to see why they have so much greater of a range than other joints. It is a simple task that you can accomplish in a classroom or at home for a science project or home work assignment.
Set a three ounce paper cup in front of you.
Roll some clay in your hands into a ball. You want to use about the same amount of clay as it takes to fill the paper cup.
Place the clay ball into the paper cup and press the end of a craft stick into the clay.
Rotate the craft stick so the ball moves around inside the cup. This is the same way a ball and socket joint rotates.
Tip
Another way to model how a ball and socket joint works is cupping one hand and making the other into a fist. Place the fist in the cupped hand and rotate the fist around with your wrist or arm.
The Magic School Bus Series also offers a kit with experiments that help explain how the body functions, including a ball and socket joint. You can find it at Parents Choice.
hope u can make now !!!
Ball and socket joints are found in the human body in shoulders and hips. They have a much greater range of motion than elbows and knee joints because they can move side to side and front to back, as well as up and down. Making models of ball and socket joints allows students to see why they have so much greater of a range than other joints. It is a simple task that you can accomplish in a classroom or at home for a science project or home work assignment.
Roll some clay in your hands into a ball. You want to use about the same amount of clay as it takes to
Ball and socket joints are found in the human body in shoulders and hips. They have a much greater range of motion than elbows and knee joints because they can move side to side and front to back, as well as up and down. Making models of ball and socket joints allows students to see why they have so much greater of a range than other joints. It is a simple task that you can accomplish in a classroom or at home for a science project or home work assignment.
Set a three ounce paper cup in front of you.
Roll some clay in your hands into a ball. You want to use about the same amount of clay as it takes to fill the paper cup.
Place the clay ball into the paper cup and press the end of a craft stick into the clay.
Rotate the craft stick so the ball moves around inside the cup. This is the same way a ball and socket joint rotates.
Tip
Another way to model how a ball and socket joint works is cupping one hand and making the other into a fist. Place the fist in the cupped hand and rotate the fist around with your wrist or arm.
The Magic School Bus Series also offers a kit with experiments that help explain how the body functions, including a ball and socket joint. You can find it at Parents Choice.
hope u can make now !!!
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Answered by
7
Here you have to make a physical ball and socket joint.
Set a paper cup in front of you. Then roll some clay in your hands into a ball to fit on the cup. You have to use about the same amount of clay as it takes to fill the paper cup.
Then for setting up,
Place the clay ball into the paper cup and press the end of a craft stick into the clay. Using it, rotate the craft stick so the ball moves around inside the cup. This is the same way a ball and socket joint rotates.
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