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Test: Motion - 2 - Year 11 MCQ


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10 Questions MCQ Test Physics for GCSE/IGCSE - Test: Motion - 2

Test: Motion - 2 for Year 11 2024 is part of Physics for GCSE/IGCSE preparation. The Test: Motion - 2 questions and answers have been prepared according to the Year 11 exam syllabus.The Test: Motion - 2 MCQs are made for Year 11 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Motion - 2 below.
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Test: Motion - 2 - Question 1

What does a red line on a speed-time graph typically indicate?

Detailed Solution for Test: Motion - 2 - Question 1

A red line on a speed-time graph generally signifies an object undergoing constant acceleration. In this context, the value of acceleration or deceleration magnitude is depicted, with the degree of slope on the line indicating the rate of acceleration. A steep slope on the line implies significant acceleration, while a gentle slope indicates minor acceleration.

Test: Motion - 2 - Question 2

How is constant acceleration represented on a speed-time graph?

Detailed Solution for Test: Motion - 2 - Question 2

Constant acceleration on a speed-time graph is typically shown as a non-horizontal straight line. This line helps visualize how the speed of an object changes over time at a constant rate. The slope of this line indicates the magnitude of acceleration, with steeper slopes representing higher rates of acceleration.

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Test: Motion - 2 - Question 3

In what scenario would a speed-time graph show an upward curve with an increasing gradient?

Detailed Solution for Test: Motion - 2 - Question 3

An upward curve with an increasing gradient on a speed-time graph would indicate increasing acceleration. This curve represents a scenario where the object is accelerating at a faster rate over time, leading to a steeper curve on the graph as the acceleration increases progressively.

Test: Motion - 2 - Question 4

What does a downward line on a speed-time graph typically represent?

Detailed Solution for Test: Motion - 2 - Question 4

A downward line on a speed-time graph usually indicates constant deceleration. This line illustrates how the speed of an object decreases over time, resulting in a negative acceleration. The shape of the curve in this scenario can vary based on whether the deceleration is constant, increasing, or decreasing.

Test: Motion - 2 - Question 5

How is freefall acceleration described in the context of objects falling without air resistance?

Detailed Solution for Test: Motion - 2 - Question 5

In the absence of air resistance, objects falling without any external forces experience freefall acceleration, where they descend with a constant acceleration. This acceleration is typically around 9.8 meters per second squared near the Earth's surface, as observed by Galileo.

Test: Motion - 2 - Question 6

What forces do objects falling through fluids experience in a uniform gravitational field?

Detailed Solution for Test: Motion - 2 - Question 6

Objects falling through fluids in a uniform gravitational field experience two main forces: weight, which is due to gravity, and friction, such as air resistance. These forces act in opposite directions, affecting the motion of the falling object.

Test: Motion - 2 - Question 7

What happens when a skydiver reaches terminal velocity?

Detailed Solution for Test: Motion - 2 - Question 7

When a skydiver reaches terminal velocity, the forces acting on them are balanced, resulting in zero acceleration. At this point, the skydiver moves at a constant speed since the upward force of air resistance equals the downward weight force, leading to equilibrium in their motion.

Test: Motion - 2 - Question 8

What role does air resistance play in determining a skydiver's speed during freefall?

Detailed Solution for Test: Motion - 2 - Question 8

Air resistance increases with the skydiver's speed during freefall. As the skydiver accelerates and gains speed, the air resistance they experience also increases, affecting their overall speed during the fall.

Test: Motion - 2 - Question 9

What factors contribute to a skydiver reaching terminal velocity?

Detailed Solution for Test: Motion - 2 - Question 9

A skydiver reaches terminal velocity when the upward force of air resistance equals the downward weight force. Factors contributing to this equilibrium include the increased surface area, such as when the parachute is deployed, which leads to an increase in air resistance and a decrease in the skydiver's acceleration.

Test: Motion - 2 - Question 10

What happens to a skydiver's speed when the parachute is deployed during freefall?

Detailed Solution for Test: Motion - 2 - Question 10

When a skydiver deploys the parachute during freefall, the increased surface area leads to higher air resistance. This increase in air resistance causes the skydiver's speed to decrease as they decelerate, moving towards a slower terminal velocity due to the balanced forces acting on them.

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