3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s². 3(b) Using the information from (a), calculate the final velocity (v) after a time (t) of 16 seconds using the formula: $$ v = u + at $$ where u is the initial velocity. 3(c) From the graph provided, identify relevant data points to calculate areas under specific sections of the curve, and analyze the distances traveled during different phases.

GCSE Edexcel Physics Combined Science Speed: 3(a) Calculate the mass of the

3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s² - Edexcel - GCSE Physics Combined Science - Question 3 - 2016 - Paper 1

Question 3

$3(a)--Calculate-the-mass-of-the-object-using-the-formula:---$$-m-=-\frac{F}{a}-$$-where-the-force-(F)-is-1870-N-and-the-acceleration-(a)-is-1.83-m/s²-Edexcel-GCSE Physics Combined Science-Question 3-2016-Paper 1.png$

3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s². 3(b) Using ... show full transcript

Worked Solution & Example Answer:3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s² - Edexcel - GCSE Physics Combined Science - Question 3 - 2016 - Paper 1

Step 1

Calculate the mass

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Answer

To find the mass of the object, we will rearrange the formula for mass:

$m = \frac{F}{a}$ . Substituting the given values:

Force (F) = 1870 N
Acceleration (a) = 1.83 m/s²

Thus, $m = \frac{1870}{1.83} \approx 1020 \text{ kg}$ . Rounding to three significant figures gives us 1020 kg.

Step 2

Calculate the final velocity

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Answer

For this part, rearrange the formula for final velocity:

$v = u + at$ . Here, the initial velocity (u) is assumed to be 0 m/s. Therefore:

a = 1.83 m/s²,
t = 16 s.

Substituting these values gives us: $v = 0 + 1.83 \times 16 = 29.28 \text{ m/s}$ . Rounding gives the final velocity as approximately 29.3 m/s.

Step 3

Calculate areas and distances

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Answer

For this part, you need to analyze the graph to identify the relevant data points and calculate areas.

The area under section AB is calculated to be 240 m².
The area under section CD calculates to 135 m².

Next, it should be noted: The distance traveled at constant speed (240 m) is greater than the distance traveled when slowing down (135 m). Thus, this confirms that the object maintained a greater distance during its uniform motion.

3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s² - Edexcel - GCSE Physics Combined Science - Question 3 - 2016 - Paper 1

Worked Solution & Example Answer:3(a) Calculate the mass of the object using the formula: $$ m = \frac{F}{a} $$ where the force (F) is 1870 N and the acceleration (a) is 1.83 m/s² - Edexcel - GCSE Physics Combined Science - Question 3 - 2016 - Paper 1

Calculate the mass

Calculate the final velocity

Calculate areas and distances

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