Question
14. What is weight?
a
The measure of inertia of the body
b
The force exerted on a body by gravity.
c
The physical body's resistance to acceleration when a net force is applied.
d
The amount of matter present in any object or body.
15. On Earth - your weight will change depending on ______.
a
the weather
b
fig newtons
c
your mass
16. The weight of this pony on Earth is 1960 N
How much will the pony weigh on Neptune? Gravity on Neptune has a value of 11.28 m/s2
a
9.8 N
b
1960 N
c
2256 N
d
200 N
a
The measure of inertia of the body
b
The force exerted on a body by gravity.
c
The physical body's resistance to acceleration when a net force is applied.
d
The amount of matter present in any object or body.
15. On Earth - your weight will change depending on ______.
a
the weather
b
fig newtons
c
your mass
16. The weight of this pony on Earth is 1960 N
How much will the pony weigh on Neptune? Gravity on Neptune has a value of 11.28 m/s2
a
9.8 N
b
1960 N
c
2256 N
d
200 N
Answers
GPT-4o mini
14. What is weight?
**b** The force exerted on a body by gravity.
15. On Earth - your weight will change depending on ______.
**c** your mass
16. The weight of this pony on Earth is 1960 N. How much will the pony weigh on Neptune? Gravity on Neptune has a value of 11.28 m/s².
To find the pony's weight on Neptune, we can use the formula:
Weight = mass x gravity
First, we need to find the mass of the pony using its weight on Earth:
Weight (Earth) = mass x gravity (Earth)
1960 N = mass x 9.8 m/s²
mass = 1960 N / 9.8 m/s²
mass ≈ 200 kg
Now we can calculate the weight of the pony on Neptune:
Weight (Neptune) = mass x gravity (Neptune)
Weight (Neptune) = 200 kg x 11.28 m/s²
Weight (Neptune) ≈ 2256 N
So, the answer is **c** 2256 N.
**b** The force exerted on a body by gravity.
15. On Earth - your weight will change depending on ______.
**c** your mass
16. The weight of this pony on Earth is 1960 N. How much will the pony weigh on Neptune? Gravity on Neptune has a value of 11.28 m/s².
To find the pony's weight on Neptune, we can use the formula:
Weight = mass x gravity
First, we need to find the mass of the pony using its weight on Earth:
Weight (Earth) = mass x gravity (Earth)
1960 N = mass x 9.8 m/s²
mass = 1960 N / 9.8 m/s²
mass ≈ 200 kg
Now we can calculate the weight of the pony on Neptune:
Weight (Neptune) = mass x gravity (Neptune)
Weight (Neptune) = 200 kg x 11.28 m/s²
Weight (Neptune) ≈ 2256 N
So, the answer is **c** 2256 N.