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According to Newton's First Law of Motion(inertia), what should happen if I kick a soccer ball in deep space? It should gradually speed up until it is traveling the a speed of light. b It should gradually slow down, but never stop. C speed in the same direction, forever. It should continue to move forward at the same d It will stick to my foot due to a large gravitational force.

Question

According to Newton's First Law of Motion(inertia), what should
happen if I kick a soccer ball in deep space?
It should gradually speed up until it is traveling the
a
speed of light.
b It should gradually slow down, but never stop.
C
speed in the same direction, forever.
It should continue to move forward at the same
d
It will stick to my foot due to a large gravitational
force.

According to Newton's First Law of Motion(inertia), what should happen if I kick a soccer ball in deep space? It should gradually speed up until it is traveling the a speed of light. b It should gradually slow down, but never stop. C speed in the same direction, forever. It should continue to move forward at the same d It will stick to my foot due to a large gravitational force.

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AlexandraAdvanced · Tutor for 1 years

Answer

It should continue to move forward at the same speed in the same direction, forever.

Explain

## Step 1: Identify the relevant principle.<br />Newton's First Law of Motion, also known as the law of inertia, states that an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force.<br /><br />## Step 2: Apply the principle to the given scenario.<br />In deep space, there are no forces such as gravity, friction, or air resistance acting on the soccer ball after it is kicked. Therefore, according to Newton's First Law, the soccer ball will continue to move in a straight line at a constant speed.<br /><br />## Step 3: Analyze the options.<br />- Option a: "It should gradually speed up until it is traveling the speed of light." This is incorrect because there is no force acting on the ball to cause it to accelerate.<br />- Option b: "It should gradually slow down, but never stop." This is incorrect because there is no force acting on the ball to cause it to decelerate.<br />- Option c: "It should continue to move forward at the same speed in the same direction, forever." This is correct according to Newton's First Law of Motion.<br />- Option d: "It will stick to my foot due to a large gravitational force." This is incorrect because the gravitational force between the soccer ball and your foot is negligible in deep space.<br /><br />#
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