A: Current remains the same on a series circuit.
A: Current will divide on a parallel circuit for each branch according to the existing resistance
yes, they are the same grip frame and the same board in each marker.
A bread board is used to protect the bench top when cutting bread vegetables meat or other things in the kitchen.i.e you put the stuff you want to cut on the bread board not on the bench. Scientifically speaking, it is a board on which an electric circuit is made, usually as an experiment or prototype. See the link below.
if the circuit is a series circuit (all loads wired in a single line , one after the other ) then the current will be the same in any part of the circuit . if there are several different paths for the current to take , then each path will carry a different percentage of the total current . when each of these different current values are added together , they will equal the total supplied current.
same current flow in each bulb
If the bulbs are connected in series, the same current passes through each bulb. However, if the bulbs are connected in parallel, the current will split between the bulbs with the lower resistance receiving more current.
A parallel circuit has the same voltage but different current in each leg and series circuit has the same current but different voltage on each components unless the same value.
When there is a large current in the direction shown, each compass point will point in the same direction as the current.
yes store bought bread does have the same ingredients as homemade bread.
It must be made in an over no larger than 2.4 cubic feet. The baker must pay the federal bread excise tax for each loaf prior to sale, or consumption. All ingredients must be stored in a permanent refrigeration unit running on 220V current. Any knives used to cut the bread may not be sharpened in the same room that the bread being prepared.
Slicing bread is a physical change, because each slice of bread has the same chemical composition as it had before it was sliced.
For a series circuit... Each bulb has different impedance (ohms) resulting in a different voltage drop across each. Remember Kirchoff's Current Law: The current at each point in a series circuit is the same. That same current, multiplied by the different voltage drops results in different powers (watts = amps * volts) for each bulb. For a parallel circuit. Again, each bulb still has different impedance. This time, the voltage drop is the same (Kirchoff's Voltage Law) but the current in each bulb is different. Same situation - different power in each bulb.
in a parallel circuit, current get divided among the parallel branches in a manner so that the product of current and the resistance of each branch becomes same. The sum of the current in each branch is equal to the total current of the circuit.