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3.Examine whether you can construct ΔDEF such that EF = 7.2 cm, m∠E = 110 degree and m∠F = 80 degree. Justify your answer.
10
Oct
3.Examine whether you can construct ΔDEF such that EF = 7.2 cm, m∠E = 110 degree and m∠F = 80 degree. Justify your answer. 3.Examine whether you can construct ΔDEF such that EF = 7.2 cm m∠E = 110 degree and m∠F = 80 degree. Justify your answer. October 10, 2020 Category: Chapter 3 - [...]
2.Construct ΔPQR if PQ = 5 cm, m∠PQR = 105 degree and m∠QRP = 40 degree.
10
Oct
2.Construct ΔPQR if PQ = 5 cm, m∠PQR = 105 degree and m∠QRP = 40 degree. 2.Construct ΔPQR if PQ = 5 cm m∠PQR = 105 degree and m∠QRP = 40 degree. October 10, 2020 Category: Chapter 3 - Understanding Quadrilaterals , Maths , NCERT Class 8 ,
1.Construct ΔABC, given m∠A = 60 degree, m∠B = 30 degree and AB = 5.8 cm.
10
Oct
1.Construct ΔABC, given m∠A = 60 degree, m∠B = 30 degree and AB = 5.8 cm. 1.Construct ΔABC given m∠A = 60 degree m∠B = 30 degree and AB = 5.8 cm. October 10, 2020 Category: Chapter 3 - Understanding Quadrilaterals , Maths , NCERT Class 8 ,
3.Examine whether you can construct ΔDEF such that EF = 7.2 cm, m∠E = 110 degree and m∠F = 80 degree. Justify your answer.
10
Oct
3.Examine whether you can construct ΔDEF such that EF = 7.2 cm, m∠E = 110 degree and m∠F = 80 degree. Justify your answer. 3.Examine whether you can construct ΔDEF such that EF = 7.2 cm m∠E = 110 degree and m∠F = 80 degree. Justify your answer. October 10, 2020 Category: Chapter 3 - [...]
2.Construct ΔPQR if PQ = 5 cm, m∠PQR = 105 degree and m∠QRP = 40 degree.
10
Oct
2.Construct ΔPQR if PQ = 5 cm, m∠PQR = 105 degree and m∠QRP = 40 degree. 2.Construct ΔPQR if PQ = 5 cm m∠PQR = 105 degree and m∠QRP = 40 degree. October 10, 2020 Category: Chapter 3 - Understanding Quadrilaterals , Maths , NCERT Class 8 ,
1.Construct ΔABC, given m∠A = 60 degree ,m∠B = 30 degree and AB = 5.8 cm.
10
Oct
1.Construct ΔABC, given m∠A = 60 degree ,m∠B = 30 degree and AB = 5.8 cm. 1.Construct ΔABC given m∠A = 60 degree m∠B = 30 degree and AB = 5.8 cm. October 10, 2020 Category: Chapter 3 - Understanding Quadrilaterals , Maths , NCERT Class 8 ,
Young’s double-slit experiment is carried with two thin sheets of thickness 10.4 mu m each and refractive index mu 1 = 1,52 and mu 2 = 1.40 covering the slits S1 and S2, respectively.
10
Oct
Young’s double-slit experiment is carried with two thin sheets of thickness 10.4 mu m each and refractive index mu 1 = 1,52 and mu 2 = 1.40 covering the slits S1 and S2, respectively. 52 and mu 2 = 1.40 covering the slits S1 and S2 respectively Young's double-slit experiment is carried with two thin [...]
In YDSE, when a glass plate of refractive index 1.5 and thickness t is placed in the path of one of the interfering beams (wavelength lemda), intensity at the position where central
10
Oct
In YDSE, when a glass plate of refractive index 1.5 and thickness t is placed in the path of one of the interfering beams (wavelength lemda), intensity at the position where central In YDSE intensity at the position where central when a glass plate of refractive index 1.5 and thickness t is placed in the [...]
In Young’s double-slit experiment using monochromatic light of wavelength lemda, the fringe pattern shifts by a certain distance on the screen when a mica sheet of refractive index 1.6 and thickness 2.0 mu m
10
Oct
In Young’s double-slit experiment using monochromatic light of wavelength lemda, the fringe pattern shifts by a certain distance on the screen when a mica sheet of refractive index 1.6 and thickness 2.0 mu m In Young's double-slit experiment using monochromatic light of wavelength lemda the fringe pattern shifts by a certain distance on the screen [...]
A certain region of a soap bubble reflects red light of vacuum wavelength lemda = 650 nm. What is the minimum thickness that this region of the soap bubble could have? Take the index
10
Oct
A certain region of a soap bubble reflects red light of vacuum wavelength lemda = 650 nm. What is the minimum thickness that this region of the soap bubble could have? Take the index A certain region of a soap bubble reflects red light of vacuum wavelength lemda = 650 nm. What is the minimum [...]