soda weighs differently on different planets because the planets gravitational pull makes the mass of the soda and the weight change because of pressure and different gravitational pull they could also make the soda explode because o fpressure and carbonation
You don't, necessarily. On Jupiter you would weigh more than twice your weight on Earth. Your weight would be different on the different planets because the strength of gravity varies.
1. heat the soda water at different temperatures 2. titrate the soda water against a known concentration of base (like NaOH) 3. alternatively, you can weigh the mass of the soda water before and after heating
Different planets have different orbit lengths because of their distance from the sun. Planets closer to the sun have shorter orbits, and planets farther away have longer orbits.
it totally depends on the planet
Because planets have different distanace from the sun.
The can of soda would weigh a different amount on other planets because they don't have the same amount of mass as earth does.
Less or more gravity depending on the atmosphere
You don't, necessarily. On Jupiter you would weigh more than twice your weight on Earth. Your weight would be different on the different planets because the strength of gravity varies.
because different planet have different gravity
The difference in the gravity of the two planets
Soda cans are made of 100% aluminium. What you weigh is what you get!
1. heat the soda water at different temperatures 2. titrate the soda water against a known concentration of base (like NaOH) 3. alternatively, you can weigh the mass of the soda water before and after heating
1 fluid ounce of soda weighs 0.062 5 pound. 12 fluid ounces of soda weighs 0.75 pound. If it's in a can it will weigh more.
Different mass means different gravity meaning your weight would change. For example divide your weight by six-that's what you would weigh on the Moon.
its not different at all they are just outer planets
it doesn't say
If they have the same radius but different masses, then you wouldweigh more on the planet with the larger mass.