Want this question answered?
theoretical probability can be smaller than expiremental like this say you toss a coin 4 times it lands on head 3 times that means the theoretical 1/2 is now smaller than the expiremental 3/4
Electrical current is measured in amperes, or amps for short. Smaller currents might be measured in milliamps or microamps.
A simple subtraction. Take the smaller from the larger
in kg for larger, heavier objects, but g for smaller lighter objects
Anything with a mass can be measured in centigrams, as it is merely a unit used to measure mass. Centigrams are a small unit though, so smaller items would be more ideal.
E=IxR E- Electromotive Force, measured with voltage - volt - v. I- Current, measured with amperage - amp - a. R- Resistance measured with ohms - (Greek omega symbol) Voltage = pressure. Current = flow. Resistance = opposition to flow such as wire size or load. If electricity was water then the water pump is the voltage. The water flowing through the pipe is the current and the size of the pipe is the resistance. Smaller pipe more resistance.
theoretical probability can be smaller than expiremental like this say you toss a coin 4 times it lands on head 3 times that means the theoretical 1/2 is now smaller than the expiremental 3/4
Electrical current is measured in amperes, or amps for short. Smaller currents might be measured in milliamps or microamps.
Theoretical value is a result in stoichiometry. It is the limited reaction in the smaller reaction when given to knowns.
the larger the cross sectional area, the smaller the resistance
I=V/R The smaller the resistance the greater the amperage.
trrtg
help help
if the frictional resistance is high, the force will be greater, and if the frictional resistance is low, the force will be smaller.
increase
No, because the paper has a smaller surface area.
yes