No - tungsten (W) always has 74 protons. If any atom has 75 protons, it is rhenium (Re).
The element with 75 protons in period 6 is Rhenium (Re), which has an atomic number of 75.
Look it up on the periodic table. It's #34, signifying that it has 34 protons.
The only naturally occurring isotope of As (atomnumber 33) is As-75 (76 and 77 have decay half-time of several houres)This As-75 has 33 protons, 33 electrons and (75-33 =) 42 neutrons
To determine the current required by a 75-W bulb in a 100-W circuit, we first need to know the voltage of the circuit. Assuming a standard voltage of 120 volts, the current can be calculated using the formula ( I = P/V ), where ( P ) is power in watts and ( V ) is voltage in volts. For a 75-W bulb, the current would be ( I = 75 , \text{W} / 120 , \text{V} = 0.625 , \text{A} ). Thus, the 75-W bulb requires approximately 0.625 amperes of current.
42
Rhenium has 75 protons, 75 electrons and 111 neutrons.The number of protons is equal to the number of electrons.Neutrons can be calculated by subtracting the number of protons from the atomic weight.In this case atomic number is 186 ==> the nr of neutrons = 186-75=111.
The element with 75 protons in period 6 is Rhenium (Re), which has an atomic number of 75.
Look it up on the periodic table. It's #34, signifying that it has 34 protons.
75/10 is one possible answer.75/10 is one possible answer.75/10 is one possible answer.75/10 is one possible answer.
The element Osmium has 76 protons and 76 electrons
Rhenium has 75 protons, 75 electrons, and 111 neutrons.
40 + W
None - this is energetically impossible. However, all energetically possible combinations involving 33 protons would be of the element arsenic, As.
The charge on an ion is equal to the number of protons minus the number of electrons. In this case, the ion would have a charge of +2 (75 protons - 77 electrons).
The only naturally occurring isotope of As (atomnumber 33) is As-75 (76 and 77 have decay half-time of several houres)This As-75 has 33 protons, 33 electrons and (75-33 =) 42 neutrons
The charge of an ion is equal to the number of protons minus the number of electrons. In this case, there are 75 protons and 79 electrons. Therefore, the charge of the ion would be -4, indicating that it has a net negative charge.
w