Three loads are located at the vertices of an equilateral triangle, 3 m side, to calculate...
Three loads are located at the vertices of an equilateral triangle, 3 m side, to calculate the direction of the resulting force on the load q3. The values of the charges are q1 = -2nC; q2 = -4nC; q3 = 5nC Question 11 Tres cargas están ubicadas en los vértices de un triángulo equilátero, de 3 m de lado; calcular la dirección de la fuer resultante sobre la carga 3 Los valores de las cargas son: 1 - 2 nC;...
three loads that are located at the vertices of an equilateral triangle, 3m side; Calculate the direction of the resulting force on the load q3. The values of the charges are: q1 = -2nC; q2 = -4nC; q3 = 5nC Question 11 O out of 10 points Tres cargas están ubicadas en los vértices de un triángulo equilátero, de 3 m de lado; calcular la dirección de la fuerza resultante sobre la carga 93. Los valores de las cargas son:...
Two electric charges of 3nC and -5nC are located at the base of an equilateral triangle (1 m side) Calculate the total electric potential in the center (point P) of the triangle. Dos cargas eléctricas de 3 nCy-5 nC están ubicadas en la base de un triángulo equilátero ( de 1 m de lado). Calcular el potencial eléctrico total en el centro (punto P) del triángulo. 1 m 1 m P 1 m
Two 3 nC and -5 nC electrical charges are located at the base of an equilateral triangle (1 m side). Calculate the total electric potential in the center (point P) of the triangle. Dos cargas eléctricas de 3 nC y-5 nC están ubicadas en la base de un triángulo equilátero ( de 1 m de lado). Calcular el potencial eléctrico total en el centro (punto P) del triángulo. 1 m 1 m 1 m
Three charged particles are placed at the corners of an equilateral triangle 6.3 m side (figure). The charges are Q1 = 9.1 µC, Q2 = –8.5 µC and Q3 = –2.3 µC. Calculate the magnitude of the net force on charge Q2 due to the other two. (in milli Newton). Tres partículas cargadas se colocan en las esquinas de un triángulo equilátero de 6.3 m de lado (figura). Las cargas son Q1= 9.1 °C, Q2= -8.5 uCy Q3= -2.3 pc....
Three long, parallel rectilinear conductors pass through the vertices of an equilateral triangle with a side of 0.30 cm, as seen in the figure, where the points indicate that the current is directed towards the reader and the cross means that it is directed towards the paper. If each current is worth 15.1 A, find the force per unit length exerted on the top conductor. (in milliNewtons per meter) Tres conductores rectilíneos largos y paralelos pasan a través de los...
Two electrical charges of 3 nC and -5 nC are located at the base of an equilateral triangle (1m side). Calculate the electric potential (point p) of the triangle. !!! Apps M Gmail D YouTube Maps Translate a Amazon.com Shop... Remaining Time: 1 hour, 05 minutes, 52 seconds. Question Completion Status: 10 points Save Answer Question 3 Dos cargas eléctricas de 3 nC y -5 nC están ubicadas en la base de un triángulo equilátero ( de 1 m de...
three loads are located at the vertices of an equilateral triangle, 3m side; Calculate the direction of the resulting force on the load q3. The values of the loads are: q1 = -2nC, q2 = -4nC, q3 = 5nC A. 270 ° B. 45 ° C. 35 ° D. 145 ° E. 120 ° F. 300 ° G. 25 ° H. 150 °Qs 3 m 3 m 91 3 m 92
three loads are located at the vertices of an equilateral triangle, 3m side. Calculate the direction of the resulting force on the load q3. The values of the loads are: q1 = 2nC; q2 = -4nC; q3 = 5nC A. 270 ° B. 45 ° C. 35 ° D. 145 ° E. 120 ° F. 300 ° G. 25 ° H. 150 °Qs 3 m 3 m 91 3 m 92
Three charges are located at the vertices of an equilateral triangle 3 m long. Calculate the direction of the resultant force for the charge q3. q1 = -2 nC q2 = -4 nC q3 = 5 nC