[We changed the acceleration from 4 miles per second squared to 4 meters per second squared to make it more realistic. At 4 miles per second squared, it would be moving faster than it would have if it had been shot out of a cannon. A lot faster.] Force (f) = mass (m) times acceleration (a) f = 8 kg times 4 m / sec2 32 kilogram meters / sec2 As 1 kg m / sec2 = 1 Newton, 32 kg m / sec2 = 32 Newtons
The force needed to accelerate an object is given by the formula: force = mass x acceleration. For the bowling bowl with a mass of 25kg and acceleration of 2m/s^2, the force required would be 50 Newtons.
The amount of water needed to dissolve 25kg of salt depends on the concentration of the salt solution desired. In general, 25kg of salt would require more than 25kg of water to fully dissolve, as salt has a limited solubility in water. Additional water would be needed to create a saturated salt solution.
2 dead bodies an 25kg of coke
The work done to lift a 25kg sack of cement vertically 4.3m is approximately 1075 Joules. This can be calculated using the formula: Work = Force x Distance, where Force = mass x gravity = 25kg x 9.81 m/s^2 and Distance = 4.3m.
The mass of an object does not change based on its location, so the mass of 25 kg on the moon would still be 25 kg. However, the weight of the object (the force of gravity acting on it) would be less on the moon compared to Earth due to the moon's weaker gravity.
Your mass remains the same regardless of where you are in the universe. So, if you weigh 25kg on Earth, you would still weigh 25kg in space. Weight is a measure of the force of gravity acting on an object, while mass is a measure of the amount of matter in an object.
There are 25,000 grams in 25kg.
There are 40 25kg bags in 1 ton.
There are 20 bags of 25kg in half a ton of soil.
25kg
This question is essentially asking 25kg - 6 000g. 25kg can be converted to 25 000g making it comparable. It would be this: 25kg - 6 000g = 25 000g - 6 000g = 19 000g Therefore you would have 19 000g or 19kg left over after using them.
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