Use the table to answer the question.
Planet Estimated Mass of Planet (10^23 kg)
W 6.4
X 3.3
Y 59.7
Z 48.7
Assuming these planets were similar in radius, which planet would an object weigh the most?
on planet Y✅
on planet Z
on planet W
on planet X
What is the difference between mass and weight?(1 point)
Mass is the same everywhere. Weight depends on the force of gravity.✅
Mass depends on location. Weight depends on the force of gravity.
Mass depends on the force of gravity. Weight is always the same.
Mass measures the force of gravity. Weight measures matter.
Which phrase describes gravitational attraction?(1 point)
the pull between objects with mass✅
the amount of matter in an object
how objects respond to changes in mass
how heavy an object feels
Which statement describes the relationship between the mass of two objects and their gravitational attraction toward each other?(1 point)
If the mass of one object increases while the mass of the other object remains the same, then the gravitational attraction increases.✅
If the mass of one object increases while the mass of the other object remains the same, then the gravitational attraction remains the same.
If the mass of both objects increases by the same amount, then the gravitational attraction decreases.
If the mass of both objects increases by the same amount, then the gravitational attraction remains the same.
1. The pull between the objects with mass.
2.If the mass of one object increases while the mass of the other object remains the same, then the gravitational attraction increases.
3.a 5-gram pencil
4.between the small pot and the book
REMEMBER THIS IS FOR UNIT 8 WRITING A NARRATIVE LESSON 7 LANGUAGE AND STLYE QUICK CHECK
Thanks @Cheese all your answers are correct!!!
To answer the question "Assuming these planets were similar in radius, which planet would an object weigh the most?" using the given table, we need to compare the estimated mass of the planets.
The estimated masses of the planets are:
Planet W: 6.4 x 10^23 kg
Planet X: 3.3 x 10^23 kg
Planet Y: 59.7 x 10^23 kg
Planet Z: 48.7 x 10^23 kg
Since we are assuming the planets are similar in radius, we can infer that their gravitational attraction would be proportional to their masses. Therefore, the planet with the highest mass will have the highest gravitational attraction, and thus an object would weigh the most on that planet.
By comparing the masses, we can see that planet Y has the highest mass (59.7 x 10^23 kg). Therefore, an object would weigh the most on planet Y.
Now, let's move on to the next question.
The difference between mass and weight is that mass is the amount of matter in an object, which remains the same regardless of location. Weight, on the other hand, depends on the force of gravity. Gravity is the force that attracts objects with mass towards each other.
Therefore, the correct answer is: Mass is the same everywhere. Weight depends on the force of gravity.
Now, let's move on to the next question.
Gravitational attraction refers to the pull between objects with mass. It is the force that attracts objects towards each other.
Therefore, the correct answer is: The pull between objects with mass.
Moving on to the last question.
The relationship between the mass of two objects and their gravitational attraction toward each other is that if the mass of one object increases while the mass of the other object remains the same, then the gravitational attraction increases. This is because the force of gravity is directly proportional to the mass of the objects involved.
Therefore, the correct answer is: If the mass of one object increases while the mass of the other object remains the same, then the gravitational attraction increases.
Absolutely correct! Thank you! although a bit sus that all the answers are A...
THIS IS WRONG!!!
D
D
D
B