You are unable to lift an object. Which property makes the object difficult to lift?(1 point)
Responses
density
mass
volume
weight
Two children on a seesaw are able to balance perfectly while on Earth. Would they still be balanced if the seesaw was brought to the moon?(1 point)
Responses
Yes, they would still be balanced because their weights would not change.
Yes, they would still be balanced because their masses would not change.
No, they would not be balanced because their weights would change.
No, they would not be balanced because their masses would change.
Bailee explained that when traveling to the moon, he needs to pack light because the weight of objects on the moon is the same as their weight on Earth. The mass of the objects is what changes when the gravitational pull changes. Is Bailee correct in his explanation?(1 point)
Responses
Bailee is incorrect. Both the mass and weight will stay the same.
Bailee is incorrect. The mass of the objects stay the same but weight will change.
Bailee is incorrect. Both the mass and weight will change.
Bailee is correct. The weight of the objects stay the same but mass will change.
Which equation describes the mass of an object in relation to its volume and density?(1 point)
Responses
m=DV
m=VD
m=D×V
m=D+V
Which quantity describes how tightly packed matter is inside of an object?(1 point)
Responses
density
volume
weight
mass
density
which is correct
The correct answer is density. Density is a measure of how much mass is contained within a certain volume of an object. It is a measure of how tightly packed the matter is inside the object.
which is right for each question
For the first question, the correct answer is density. The property that makes an object difficult to lift is its density.
For the second question, the correct answer is no, they would not be balanced because their weights would change. The balance on a seesaw is determined by the weights of the children, and since the gravitational pull on the moon is less than on Earth, their weights would be different and they would not be balanced.
For the third question, the correct answer is Bailee is incorrect. The mass of the objects stays the same but the weight will change when the gravitational pull changes.
For the fourth question, the correct equation that describes the mass of an object in relation to its volume and density is m = D × V.
For the fifth question, the correct quantity that describes how tightly packed matter is inside an object is density.
just tell me it the way i gave it to you
1. The property that makes the object difficult to lift is density.
2. No, they would not be balanced because their weights would change.
3. Bailee is incorrect. The mass of the objects stays the same, but weight will change.
4. The equation that describes the mass of an object in relation to its volume and density is m = D × V.
5. The quantity that describes how tightly packed matter is inside an object is density.
i didn't need and explanation just tell me the answrer
I apologize for the confusion. Here are the direct answers:
1. density
2. No, they would not be balanced because their weights would change.
3. Bailee is incorrect. The mass of the objects stays the same, but weight will change.
4. m = D×V
5. density
1. The property that makes an object difficult to lift is its weight. Weight is the force exerted on an object due to gravity.
2. Yes, they would still be balanced because their weights would not change. Weight is the force exerted on an object due to gravity, and since the force of gravity on the moon is less than on Earth, their weights would be reduced proportionally.
3. Bailee is incorrect. The mass of objects stays the same, but weight will change on the moon due to the difference in gravitational pull.
4. The equation that describes the mass of an object in relation to its volume and density is m = D × V. Mass is equal to the density of the object multiplied by its volume.
5. The quantity that describes how tightly packed matter is inside of an object is density. Density is the mass per unit volume of an object and represents how closely particles are packed together within the object.